Teaching and Professional Engineering

Dossier

 

Stanislav Pejovic

 

Click to see pdf version.

 

 

See new website; http://stanpejovic.com/

 

 

This text is under review and improvement.

 

1.     Table of Contents

1.... Table of Contents. 1

2        Mini Biography. 7

3        Activities Undertaken to Maintain Currency. 7

3.1   Courses at Ryerson University and University of Toronto. 8

3.2  University, Teaching, Professional Engineering Experience. 10

3.3  Professional Engineering. 14

3.4  Academic Degrees. 17

3.5  Chairmanship of Sections of Professional Meetings. 17

3.6  Awards. 17

3.7  Papers. 18

3.8  Invited lectures: 18

4        Resume. 20

4.1  History. 20

4.1.1     Academic and Research. 20

4.1.2     Academic and Teaching. 21

4.1.3     Professional Engineer 23

4.1.4     Volunteer at Queens Park. 24

4.2   Academic Degrees. 24

4.3  Awards. 25

4.3.1     Academic and Research. 25

4.3.2     Academic and Teaching. 25

4.3.3      Professional Engineering. 25

4.4   Research. 26

4.5  Project Manager and Team Member 26

4.6  Project Team Member 26

4.7  Theoretical Analysis. 27

4.8  Computer Programs. 27

4.9    PhD, MSc, Journal, Conference, Grant, Project Reviewer 27

4.9.1     Academic and Research Reviewer 28

4.9.2     Professional Engineering Reviewer 28

4.10   Chairmanship. 29

4.10.1  Chairman of Organizing Committees. 29

4.10.2  Chairman of Sections of Professional Meetings. 29

4.11    Memberships. 31

4.12    Invited lectures: 32

4.13   Laboratory and Site Test Studies. 34

4.13.1   Laboratory at the University of Toronto. 34

4.13.2  Laboratory Studies. 34

4.13.3  Model Acceptance Tests. 34

4.13.4  Laboratory Acceptance Tests. 35

4.13.5  Chief Engineer:  Site Acceptance Tests. 35

4.13.6  Site Acceptance Tests. 35

4.13.7  Site Tests. 36

4.14   Courses at the Universities. 37

4.14.1   Courses to Graduate Students. 37

4.14.2    Undergraduate Courses. 37

4.14.3     Seminars. 38

4.15   Academic Diplomas. 39

4.15.1  Diplomas Certified in Canada. 39

4.15.2  Diplomas. 40

4.16 Post doctor scholarships. 40

4.17   Languages. 40

4.17.1  Read, Write, Speak. 40

4.17.2  Read, Understand. 40

5          List of Publications. 42

5.1.1     PhD Thesis. 42

5.1.2     BSc Thesis. 42

5.1.3     White Papers. 42

5.1.4     Books. 42

5.1.5     Textbooks. 43

5.1.6     Key Invited Presentations. 44

5.1.7     Published Presentations and Some Reports. 44

5.1.8    Articles - Reviewed. 45

5.1.9     Articles – Journals. 46

5.1.10      Conferences. 48

5.1.11  Internet 55

5.1.13       Other Non-Refereed Publications and Reports. 55

6          Projects. 56

6.1.1        Hydroelectric, Pumped Storage, Pump, and Storage Plants. 56

6.1.2     Pumps and Ventilators Design. 56

6.1.3     Test Rigs. 57

7          Reports. 57

8          Tender Documents. 59

9         List of Citations. 59

10       List of All Courses. 78

10.1 Courses at Ryerson University and University of Toronto. 78

10.2 Other Courses at Universities. 79

10.2.1      Courses to Graduate Students. 79

10.2.2      Undergraduate Courses. 80

10.2.3      Seminars. 81

11    Evidence of teaching skills and effective interaction with students and colleagues. 83

11.1 Faculty Course Survey. 83

11.1.1    Ryerson University Teaching Assessment 83

11.1.2    Ryerson University Faculty Course Survey PCS106 Winter 2007. 84

11.2    Faculty Course Evaluations for Ryerson University. 85

11.2.1   Faculty Course Evaluations for Ryerson University - Spring 2015. 85

11.2.3   Faculty Course Evaluations for Ryerson University - Winter 2014. 86

11.2.4   Faculty Course Evaluations for Ryerson University - Spring 2014. 87

11.2.5    Faculty Course Evaluations for Ryerson University - Winter 2013. 87

11.2.6    Faculty Course Evaluations for Ryerson University - Winter 2012. 88

11.2.7    Faculty Course Evaluations for Ryerson University - Winter 2011. 88

11.2.8    Faculty Course Evaluations for Ryerson University – CPCS211 Winter 2010. 89

11.3 CESAR Course Evaluation. 91

11.3.1  CESAR Course Evaluation CPCS106 Summer 2007. 91

11.3.2  CESAR Course Evaluation CPCS106 Summer 2009. 94

11.3.3  CESAR Course Evaluation CPCS211 Winter 2010. 95

11.3.4  CESAR Course Evaluation COCS120 Winter 2011. 97

11.3.5  CESAR Course Evaluation CPCS106 Summer 2011. 99

11.3.6  CESAR Course Evaluation CPCS106 Summer 2012. 101

11.3.7  CESAR Course Evaluation CPCS106 Summer 2013. 104

12    PhD Certificate. 105

13    PEO License (P.Eng.) 106

1..... Table of Contents. 1

2        Mini Biography. 5

3        Activities Undertaken to Maintain Currency. 6

3.1   Courses at Ryerson University and University of Toronto. 6

3.2  University, Teaching, Professional Engineering Experience. 8

3.3  Professional Engineering. 12

3.4  Academic Degrees. 15

3.5  Chairmanship of Sections of Professional Meetings. 15

3.6  Awards. 15

3.7   Papers. 16

3.8  Invited lectures: 16

4        Resume. 18

4.1  History. 18

4.1.1     Academic and Research. 18

4.1.2     Academic and Teaching. 19

4.1.3     Professional Engineer 21

4.1.4     Volunteer at Queens Park. 22

4.2   Academic Degrees. 22

4.3  Awards. 23

4.3.1     Academic and Research. 23

4.3.2     Academic and Teaching. 23

4.3.3       Professional Engineering. 23

4.4   Research. 24

4.5  Project Manager and Team Member 24

4.6  Project Team Member 24

4.7  Theoretical Analysis. 25

4.8  Computer Programs. 25

4.9    PhD, MSc, Journal, Conference, Grant, Project Reviewer 25

4.9.1     Academic and Research Reviewer 26

4.9.2     Professional Engineering Reviewer 26

4.10   Chairmanship. 27

4.10.1  Chairman of Organizing Committees. 27

4.10.2  Chairman of Sections of Professional Meetings. 27

4.11    Memberships. 29

4.12    Invited lectures: 30

4.13   Laboratory and Site Test Studies. 32

4.13.1  Laboratory at the University of Toronto. 32

4.13.2  Laboratory Studies. 32

4.13.3  Model Acceptance Tests. 32

4.13.4  Laboratory Acceptance Tests. 33

4.13.5  Chief Engineer:  Site Acceptance Tests. 33

4.13.6  Site Acceptance Tests. 33

4.13.7  Site Tests. 34

4.14   Courses at the Universities. 35

4.14.1          Courses to Graduate Students. 35

4.14.2   Undergraduate Courses. 35

4.14.3     Seminars. 36

4.15   Academic Diplomas. 37

4.15.1  Diplomas Certified in Canada. 37

4.15.2  Diplomas. 38

4.16 Post doctor scholarships. 38

4.17   Languages. 38

4.17.1  Read, Write, Speak. 38

4.17.2  Read, Understand. 38

5          List of Publications. 40

5.1.1     PhD Thesis. 40

5.1.2     BSc Thesis. 40

5.1.3     White Papers. 40

5.1.4     Books. 40

5.1.5     Textbooks. 41

5.1.6     Key Invited Presentations. 42

5.1.7     Published Presentations and Some Reports. 42

5.1.8   Articles - Reviewed. 43

5.1.9     Articles Journals. 44

5.1.10            Conferences. 45

5.1.11  Internet 52

5.1.13                   Other Non-Refereed Publications and Reports. 52

6          Projects. 53

6.1.1          Hydroelectric, Pumped Storage, Pump, and Storage Plants. 53

6.1.2         Pumps and Ventilators Design. 54

6.1.3       Test Rigs. 54

7          Reports. 55

8         Tender Documents. 56

9        List of Citations. 57

10    List of All Courses. 73

10.1 Courses at Ryerson University and University of Toronto. 73

10.2 Other Courses at Universities. 74

10.2.1     Courses to Graduate Students. 74

10.2.2      Undergraduate Courses. 75

10.2.3      Seminars. 75

11    Evidence of teaching skills and effective interaction with students and colleagues. 77

11.1 Faculty Course Survey. 77

11.1.1    Ryerson University Teaching Assessment 77

11.1.2   Ryerson University Faculty Course Survey PCS106 Winter 2007. 78

11.2    Faculty Course Evaluations for Ryerson University. 79

11.2.1  Faculty Course Evaluations for Ryerson University - Spring 2015. 79

11.2.3  Faculty Course Evaluations for Ryerson University - Winter 2014. 80

11.2.4  Faculty Course Evaluations for Ryerson University - Spring 2014. 81

11.2.5     Faculty Course Evaluations for Ryerson University - Winter 2013. 81

11.2.6     Faculty Course Evaluations for Ryerson University - Winter 2012. 82

11.2.7  Faculty Course Evaluations for Ryerson University - Winter 2011. 82

11.2.8      Faculty Course Evaluations for Ryerson University CPCS211 Winter 2010. 83

11.3 CESAR Course Evaluation. 85

11.3.1  CESAR Course Evaluation CPCS106 Summer 2007. 85

11.3.2  CESAR Course Evaluation CPCS106 Summer 2009. 88

11.3.3  CESAR Course Evaluation CPCS211 Winter 2010. 89

11.3.4  CESAR Course Evaluation COCS120 Winter 2011. 91

11.3.5  CESAR Course Evaluation CPCS106 Summer 2011. 93

11.3.6    CESAR Course Evaluation CPCS106 Summer 2012. 95

11.3.7    CESAR Course Evaluation CPCS106 Summer 2013. 98

12    PhD Certificate. 99

13    PEO License (P.Eng.) 100

 Back to new website; http://stanpejovic.com/

                                                                                                                                                              


                                                                                                                                                              

2        Mini Biography

 

 Stanislav Pejovic, Prof., PhD, P Eng.

Stanislav Pejovic was born in Belgrade, Serbia, received his Ph.D. Degree from the University of Belgrade, and served in various positions including as Professor for the Department of Mechanical Engineering, chair for Hydraulic Machines and Energy Systems, Fac. of Mech. Eng., and Head of Hydraulic Energy Dept, and Chair and Member of Board of Institute of Mechanical Engineering. Dr. Pejovic has served as Principal Investigator and Project Manager, Department of Mechanics, Mathematical Institute of Serbian Academy of Sciences and Arts, in Belgrade. Dr. Pejovic has been teaching at the University of Toronto and Ryerson University since 2002, lecturing on specialized subjects related to energy, design of power plants, thermodynamics, physics, fluid mechanics, and hydraulic transient analysis (waterhammer, vibrations, hydraulic vibrations, stability, resonance in technical systems and human blood vessels). He has also been Visiting Professor at the University of Singapore, Hong Kong, Sarajevo and Skopje, Nis, to name a few. His more than 200 publications have been referred in more than 250 articles and books.

In February 2016 Prof. Pejovic was nominated as independent Expert, by the International Chamber of Commerce (ICC) in an Arbitration Dispute Resolution (ADR). He was mandated to provide an Independent Expert Report to the Arbitral Tribunal

A special section: Hydraulic Systems / Pejovic Special Session, IAHR (International Association for Hydraulic Research), Symposium in Montreal 2014 to honour his work and stir up interest for Physical and Mathematical instabilities. (http://iopscience.iop.org/1755-1315/22/4)

Prof. Pejovic specializes in research, development, design, construction, commissioning, maintenance, troubleshooting, and review of electric plants, hydraulic systems, pumps and turbines as well as the complex thermal and nuclear plant systems. He is the author of several books and text books on vibrations, hydraulic transients, White Paper on Hydro Energy Storage, and a co-author of "The Guide to Hydropower Mechanical Design", prepared by ASME Hydro Power Technical Committee, as well as "Guidelines to Hydraulic Transient Analysis". A consulting engineer on design, construction, on-site and model tests of power plants and computer simulation of transient and hydraulic vibration of many systems, Dr. Pejovic has been involved in troubleshooting in the US, Indonesia, Canada, Iran, and the former Yugoslavia. Today, Dr. Pejovic is a licensed Professional Engineer in the Province of Ontario.

Supported by Alexander von Humboldt Foundation Prof. Pejovic spent two years in Germany at the University of Braunschweig, and University of Hannover.

Full Biography page 2018, List of Publications page 4240, Projects page 5653, Citations 5957.

 

Back to new website; http://stanpejovic.com/

 

3        Activities Undertaken to Maintain Currency

 

Professor STANISLAV PEJOVIĆ, Ph.D., P. Eng.

1411 - 300 Webb Drive

Mississauga, ON, L5B 3W3, Canada

Tel:      905-896-1253

Cell:    416-270-8126

E-mail: pejovics@asme.org

pejovic.stan@utoronto.ca

spejovic@ryerson.ca

Website: http://stanpejovic.com/

 

3.1   Courses at Ryerson University and University of Toronto

Institution:

Course(s):

Year(s):

Name of Reference (with telephone and position title):

Ryerson University              

PCS130 Physics II

 

PCS106 Physics for the Health Sciences

 

PCS 110 Physics

 

PCS 125 Physic

W2017

W2010

 

W 2008

W 2007

 

2003

 

2003

Prof. Michael Kolios (416-979-5000 Ex. 7065)

Ryerson University

Continuing Education          

CPCS120 Physics I

 

 

 

 

CPCS211  Physics II-Mechanics

 

 

 

 

 

 

CPCS106 Physics for the Health Sciences

 

 

S  2015

W 2015

W 2014

W 2013

W 2012

W 2011

 

W 2010

W 2009

W 2008

W 2007

W 2005

 

S 2016

S 2015

S 2014

S 2013

S 2011

S 2010

S 2009

S 2008

S 2007

S 2006

S 2005

Prof. Michael Kolios (416-979-5000 Ex. 7065)

University of Toronto

EDV301H1 S: Design of Hydro and Wind Electric Plants

 

CIV1099 Design of Hydro and Wind Electric Plants

 

CIV 1099 Energy Transformation Systems

 

MIE270 Fluid Mechanics

2010

2009

 

2008

 

 

2006

 

 

2004

Prof. Bryan Karney (416-978-7776)

 

 

 


 

3.2  University, Teaching, Professional Engineering Experience

 

2016                            International Chamber of Commerce (ICC)

 

In February 2016 Prof. Pejovic was nominate as independent Expert, by the International Chamber of Commerce (ICC) in an Arbitration Dispute Resolution (ADR). He was mandated to provide Independent Expert Reports to the Arbitral Tribunal

 

 

2016                         Invited lecture: Lack of continuing education - Commercial computer programs most dangerous for users (In Serbian: Nedostatak kontinuiranog obrazovanja - Komercijalni računarski programi najopasniji za korisnike, link: http://stanpejovic.com/Pejovic MF14Apr2016Nedostatak kontinuiranog obrazovanja.pdfhttp://krivak.rs/images/stories/aktivnosti/RaznaObavestenja/Stanislav_Pejovic_Pozivnica_za_predavanje.pdf ; http://krivak.rs/index.php?start=50

 

2014                         Site C Clean Energy Project, BC Hydro – Working diner, Vancouver2014. Discussion to reduce:

 

       maintenance and operation costs

       upfront costs

       probability of troubles and accidents

 

 

2014                       IAHR Symposium, Montreal 2014

 

A special section entitled Hydraulic Systems / Pejovic Special Session, IAHR (International Association for Hydraulic Research), Symposium in Montreal 2014.  This was specifically arranged to honour some of his previous work and thereby to stir up interest for a new initiative relating to Physical and Mathematical instabilities. (http://iopscience.iop.org/1755-1315/22/4)

 ·        Bergant, A., Karney, B., Pejović, S., Mazij, A, J., Treatise on water hammer in hydropower standards and guidelines, IAHR Symposium, Montreal, Canada, 2014

·        Pejović, S.,  Karney, B., Guidelines for transients are in need of revision, IAHR Symposium, Montreal, Canada, 2014

·        Pejovic, S., Gajic A., Zhang, Q.,  Smart design requires updated design and analysis guidelines, IAHR Symposium, Montreal, Canada, 2014

 

2014                      IAHR Montreal 2014 special session: Hydraulic systems / Pejovic special session

 

·       Guidelines to Hydraulic Transients - New updated edition. Link: http://www.stanpejovic.com/Guidelines_Transients_FLYER.pdf

·       Generator Escalator turning possibility to reality. Link http://www.stanpejovic.com/Generator_Escalator_FLYER.pdf

 

2014                       Seminar

 

·       Invited Seminar: The Challenge and Opportunity of 21st Century Hydro (All) – a guided SWOT analysis, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link:

https://www.apeg.bc.ca/getattachment/Events/Events/14NOVEHP/APEGBC_Essential_Hydro_Power_Seminar_Day3.pdf.aspx

·       Tree Days Invited Seminar: Essential Hydro Power, S. Pejovic, T. Maricic and B. Karney>, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link: https://www.apeg.bc.ca/Events/Events/14NOVEHP

 

2013                            Presentations

 

·          Pumped Strorage Plant Bajina Basta, ... and Hydroelectric Plants: Iron Gates, Vlasina, Zvornik, …; success - failure (title in Serbian: Bajina Basta, Djerdap, Vlasina, Zvornik, …; uspeh – neuspeh), University of Belgrade, Beograd, 16 December 2013

·          Pumped Strorage Plant Bajina Basta, ... and Hydroelectric Plants: Iron Gates, Vlasina, Zvornik, …; success - failure (title in Serbian: Bajina Basta, Djerdap, Vlasina, Zvornik, …; uspeh – neuspeh), Asspcoatopn „Serbian Krivak“ (УДРУЖЕЊE "СРПСКИ КРИВАК"), Beograd 16 December 2013

·          Pejovic S., Pumped and Hydro Storage Reduce Electricity Costs, Clean Environment and Keep Wind and Solar Unpolluted, Think-Hydro, Resita, Romania, November 13-15, 2013 (Authors of the article: Stanislav Pejovic, Aleksandar Gajic, Bryan Karney, Anton Bergant)

 

2012                            White Paper Presentation

 

·        Pejovic S., Complementing Wind with Hydro and Pumped Storage: Greening Ontario’s Grid, seminar, Ryerson University, Faculty of Engineering, Architecture and Science, Centre for Urban Energy, Toronto, 2012 Link:

http://stanpejovic.com/WPSeminar2012Jun14.ppt

http://stanpejovic.com/WPSeminar2012Jun14.pdf

 

2011                            White Paper

 

·        Pejovic S., White Paper on Hydro Energy Storage, Report, Ryerson University, Faculty of Engineering, Architecture and Science, Centre for Urban Energy, Toronto, 2011

·        Pejovic S., Hydraulic Systems and Water Energy Storages at High Risk. Lessons to Learn, Article / Report, Ryerson University, Faculty of Engineering, Architecture and Science, Centre for Urban Energy, Toronto, 2011.

 

2010                            Key Invited Presentations

 

·        Pejovic S., Zhang Q.,  Karney B., Gajic A., Key invited presentation, Analysis of Pump-Turbine “S” Instability and Reverse Waterhammer Incidents in Hydropower Systems, 4th International Meeting on Cavitation and Dynamic Problems in Hydraulic Machinery and Systems, Belgrade, October 26-28, 2011, Links: Full text  and  Presentation

 

2010                            Laboratory at the University of Toronto

 

·        Pelton turbine model tests stand updated for the students’ course: CIV1099 Design of Hydro and Wind Electric Plants (for the first time in North America), 2010.

 

2009                            IEEE Canada, Electrical Power and Energy Conference 2009,

·        Chair, Panel Session Hydro Power and Storage Technology, IEEE CANADA, Electrical Power and Energy Conference 2009, October 22 - 23, 2009. Montreal, Quebec, Canada.

 

2007 – Present           Professor and Research Associate (as of 2003), part time –Department of Civil Engineering, University of Toronto, Canada

·        Lecture notes for the new Undergraduate course Design of Hydro and Wind Electric Plants, winter 2009 for the first time.

·        Lecture notes for the new Graduate course Design of Hydro and Wind Electric Plants, winter 2008 for the first time.

 

2007                            IEEE Canada, Electrical Power Conference 2007, "Renewable and Alternative Energy Resources," October 25 - 26, 2007 Montreal, Quebec, Canada

 

·       Chair, Panel Session Renewable Energy Resource in Canada and Abroad.

·       Chair, Session Th-P-2: Hydro Power Technology

 

2006 – Present           Professor and Research Associate, part time –Department of Civil Engineering, University of Toronto, Canada

·       CIV1099 Energy Transformation Systems, graduate course (Started in January 2006 for the first time)

 

2006                            Consulting Engineer, PT Bukaka Teknik Utama, Jakarta, Indonesia

 

·       Lecture/Presentation to engineers at Poso 2 Hydroelectric Plant, Sulawesi Island, Indonesia, 2006

 

2005Present           Professor, Instructor part time, Ryerson University, Toronto, G. Raymond Chang School of Continuing Education.

·       CPCS120 Physics I

·       CPCS130 Physics II

·       CPCS106 Physics for the Health Sciences

·       CPCS211 Physics: Mechanics

 

2005                Seminar by the IEEE Ottawa Robotics/PES/RS Chapters and Educational Activities, Achieving Cleaner and More Efficient Electricity Production Using Free Spinning Reserve.

 

2005                            Presentation at PEO (Professional Engineers Ontario), Problems of Stable Power Generation in Ontario.

 

2004                            Presentation at the University of Toronto, Consideration of Bill 100, Stability of Power Production and the Huge Economic and Social Consequences of Price and Price Variation, November 17, 2004.

 

2004                            Expert presentation, video, written submission, Hansard Reporting and Interpretation: Stability of Power Production and the Huge Economic and Social Consequences of Price and Price Variation, 12 August 2004. http://www.ontla.on.ca/committee-proceedings/transcripts/files_html/2004-08-12_SP003B.htm#P447_117590
Movie:
Cane_in_Canada\Folders\Queens Park press\Legislative Video pres\Pejovic2.wmv

 

2004 – Present           Professor and Research Associate, part time –Department of Civil Engineering, University of Toronto, Canada

·       CIV1099 Energy Transformation Systems, graduate course

·       Course to Engineers (Karney B., Pejovic S.): Education to Pumps and Pumping, Ministry of Environment of Ontario,

·       MIE270 Fluid Mechanics 1, undergraduate course

·       Theses

·       Reviews.

·       Hydraulic plants: Pumping systems, hydroelectric plants, pump storage plants, hydraulic systems.

·       Journal articles.

 

2003                           Professor, part time, Ryerson University, Toronto, Department of Mathematics, Physics & Computer Science,

·       CPCS125 Physics: Waves and Fields

·       CPCS110 Physics

 

2003 – Present           Research Associate, part time –Department of Civil Engineering, University of Toronto, Canada

 

2000                           Marker, Department of Mathematics, Physics and Computer Science, Ryerson University, Toronto, Canada.

 

 

3.3  Professional Engineering

 

2016                         International Chamber of Commerce (ICC)

 

In February 2016 Prof. Pejovic was nominate as independent Expert, by the International Chamber of Commerce (ICC) in an Arbitration Dispute Resolution (ADR). He was mandated to provide an Independent Expert Report to the Arbitral Tribunal

 

 

2014                         Site C Clean Energy Project, BC Hydro – Working diner, Vancouver2014. Discussion to reduce:

·       maintenance and operation costs

·       upfront costs

·       probability of troubles and accidents

 

 

2011 –                         Consulting Engineer, PT Bukaka Teknik Utama, Jakarta, Indonesia,

·       Review/Design: Poso Hydroelectric Plants, Sulawesi Island, Indonesia, 2011

 

 

2008                            St. Lawrence Seaway Lock 4 Hydro Power Plant upgrade project:

· Hydro Power Plant Turbine Nameplate and Possible Upgrade

 

2006 –                         Consulting Engineer, PT Bukaka Teknik Utama, Jakarta, Indonesia,

·       Review/Design: Poso Hydroelectric Plants, Sulawesi Island, Indonesia, 2006

 

2004                            Expert Field System Machining Inc., South Elgin, IL USA:

·       Troubleshooting, Richard B. Russell Pump Storage Plant. Bid has not been accepted.

 

2003 – Present          Member of the Panel of Experts, Lahmeyer International GmbH, Friedberger, Germany

·       Troubleshooting, total 2000 MW (8x254 MW) Hydroelectric Plant: Pressure surges and transient draft tube pressure pulsation during load rejection.

 

May 2001 to December 2001 Mechanical Engineer - Full time contract. Stone & Webster Canada L.P., a Shaw Group Company, Toronto, Ontario, Canada.

·       Darlington Nuclear Generating Station, Ontario Power Generation – Bid for design, testing, fabrication, guarantee, and delivery, of a new strainer for Emergency Coolant Injection System.

·       Big Hanaford Combined Cycle Plant – Calculation for Cooling Water System – Transient Load Analysis.

 

March 2001 to October 2001, Mechanical Engineer - part time contract. Merlin General Corporation, Kircondine. Client: Ontario Power Generation, Tiverton, Ontario

·       Peristaltic pumps in sampling stations – Review and troubleshooting of flow measurements in sampling stations in operation. Site review and review of calibration reports. Writing reports, meetings, safeguard.

·       Nuclear waste aging management – Monitoring of radioactivity in effluent and environment at Bruce site. Review of the Dry Storage Modulus (Thermal, Welding and Climate Effects), Inground Containers IC-18 (Climate Effects: Thermal Cycle Stresses, Pressure Fluctuation and Wind Erosion). Teamwork, meetings, writing reports, safeguard.

 

March 2000 – April 2000        Mechanical Engineer – Part time contract, Acres International Limited, Niagara Falls, Ontario.

Andrews 3 Hydroelectric Plant, Great Lake Power Limited, Transient analysis – waterhammer, hydraulic vibrations, cavitation analysis and calculations for new Francis turbine runner (22.5 MW). Increased power output and discharge ~ 15%.

 

1998 – 1999                Mechanical Engineer - Full time contract, Canadian International Consortium: Hydro Quebec & Rousseau Sauvé Warren 9 (Montreal, Quebec) in Iranian Company Farab, Teheran.

·       Hydroelectric Powerplants:

·       “Masjed-E-Soleyman" (4x254),

·       "Karkheh" (3x136 MW),

·       "Karun III" (4x255 MW).

 

Engineering experience:

·       Approximate stability analysis of powerplant and energy production.

·       Calculations and analysis of draft tube flap gate vibrations under transient and steady mode of operation.

·       Model tests of hydraulic turbines in the manufacturer’s laboratory, Harbin Electric Machinery Co. Ltd., Harbin, China.[1]

·       Review of similarity between the model and prototype

·       Review of manufacturers' transient analyses and water column separation booklets for Iranian Hydroelectric Plants under construction[2].

·       Review of manufacturers' stress analysis booklets and drawings

·       Implementation of ASME and IEC standards and guidelines.

 

3.4  Academic Degrees

 

·       Professional Engineers Ontario - P. Eng. licensed in Canada as of November 11, 2002.

·       Doctor of Philosophy in Mechanical Engineering certified by University of Toronto Comparative Education Service as of March 25, 2002.

 

3.5  Chairmanship of Sections of Professional Meetings

 

·        Chair, Panel Session Hydro Power and Storage Technology, IEEE CANADA, Electrical Power and Energy Conference 2009, October 22 - 23, 2009. Montreal, Quebec, Canada.

·       Chair, Panel Session Renewable Energy Resource in Canada and Abroad. IEEE Canada, Electrical Power Conference 2007, "Renewable and Alternative Energy Resources," Montreal, Quebec, Canada

·       Chair, Session Th-P-2: Hydro Power Technology IEEE Canada, Electrical Power Conference 2007, "Renewable and Alternative Energy Resources," Montreal, Quebec, Canada

·       Chairman of a Section at the International Conference on CASE STUDIES in HYDRAULIC SYSTEMS CSHS 03, Belgrade, 2003

·       Chairman of a Section at the 21st IAHR (International Association for Hydraulic Research), Symposium, Lausanne, Switzerland, 2002.

 

3.6  Awards

 

·       National Ethnic Press and Media Council of Canada, Innovation / Science and Technology Award, 2006

·       Member of the Policy Advisory Council on Energy, Toronto (2003)

 

3.7   Papers

 

Please see List of Publications

 

3.8  Invited lectures:

 

1.                   Invited lecture: Lack of continuing education - Commercial computer programs most dangerous for users (In Serbian: Nedostatak kontinuiranog obrazovanja - Komercijalni računarski programi najopasniji za korisnike, link: http://stanpejovic.com/Pejovic MF14Apr2016Nedostatak kontinuiranog obrazovanja.pdfhttp://krivak.rs/images/stories/aktivnosti/RaznaObavestenja/Stanislav_Pejovic_Pozivnica_za_predavanje.pdf ; http://krivak.rs/index.php?start=50

1.       

2.      ·       Invited Seminar: The Challenge and Opportunity of 21st Century Hydro (All) – a guided SWOT analysis, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link:

3.      https://www.apeg.bc.ca/getattachment/Events/Events/14NOVEHP/APEGBC_Essential_Hydro_Power_Seminar_Day3.pdf.aspx

4.      ·       Tree Days Invited Seminar: Essential Hydro Power, S. Pejovic, T. Maricic and B. Karney>, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link: https://www.apeg.bc.ca/Events/Events/14NOVEHP

5.      ·       Two Days Invited Seminar: Turbomachines in Hydroelectric Plants: Selection, Operation, Hydroelectric Plant Operating Diagrams, S. Pejovic, and G. Naser, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2011.

6.      ·       Two Days Invited Seminar: Turbomachines in Hydroelectric Plants: Selection, Operation, Hydroelectric Plant Operating Diagrams, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2009.

7.      ·       Hydro Power and Storage Technology, Professional Engineers Ontario, Mississauga PEO Chapter, October 28, 2009.

8.      ·       Energy Storage Technology, (Karney W.B., with Pejovic S.), PEO (Professional Engineers Ontario), 6 October 2008.

9.      ·       Progress of Analysis & Designs, Presentations to the engineers designing and constructing hydroelectric plants. Site of Poso 2 hydroelectric plant, Sulawesi Island, Indonesia, 2006

10.  ·       An Introduction to Modelling, Presentations to the engineers designing and constructing hydroelectric plants. Site of Poso 2 hydroelectric plant, Sulawesi Island, Indonesia, 2006

11.  ·       Pumped Storage Plants Economic and Environmental Benefits: Best Efficiency – Free Spinning Reserve – Stability, Presentations to the engineers designing and constructing hydroelectric plants. Site of Poso 2 hydroelectric plant, Sulawesi Island, Indonesia, 2006

12.  ·        Achieving Cleaner and More Efficient Electricity Production Using Free Spinning Reserve, Seminar by the IEEE Ottawa Robotics/PES/RS Chapters and Educational Activities,, 2005

13.  ·       Economic and Environmental Benefits of Pumped Storage Schemes, University of Toronto, 20 January 2005, Presentation to graduate students

14.  ·       Introduction to Pumps and Pumping (Bryan Karney and Stanislav Pejovic), University of Toronto, Toronto, Ontario, Canada, June 2003 organized by Ministry of the Environment and Energy, Ontario, Canada

15.  ·       Hydropowerplants, Hydraulic Transients and Vibrations - Engineers at FARAB and other Companies, and Iranian Authorities, Teheran, Iran, 1998.

 Back to new website; http://stanpejovic.com/

 


 4        Resume

 

 

Professor STANISLAV PEJOVIC, Ph.D., P. Eng.

1411 - 300 Webb Drive

Mississauga, ON, L5B 3W3, Canada

Tel:      905-896-1253

Cell:    416-270-8126

E-mail: pejovics@asme.org

stan.pejovic@utoronto.ca

spejovic@ryerson.ca

Website: http://www.stanpejovic.com/

http://individual.utoronto.ca/StanPejovic

http://myelab.net/cane/

 

 

 

4.1  History

 

 

4.1.1     Academic and Research

 

2011                           Independent International Expert: In February 2016 Prof. Pejovic was nominate as independent Expert, by the International Chamber of Commerce (ICC) in an Arbitration Dispute Resolution (ADR). He was mandated to provide Independent Expert Reports to the Arbitral Tribunal

 

2011                           Visiting Distinguished Research Fellow, Ryerson University, Faculty of Engineering, Architecture and Science, Centre for Urban Energy

 

2003 – Present          Part time Adjunct Professor and Research Associate, Department of Civil Engineering, University of Toronto, Canada.

 

1993 – 1994               Visiting Professor, National University of Singapore, Singapore.

 

1993                           Visiting Professor, University of Hong Kong: Hong Kong.

 

1989 (3 moths)

1991 (3 moths)

1992 (3 moths)           Scholarship of Alexander von Humboldt Foundation University of Hanover, Institute for Turbomachines (Rotating Machines), Hannover, Germany.

 

1987 (3 moths)

1988 (3 moths)           Scholarship of Alexander von Humboldt Foundation University of Hannover, Institute for Fluid Mechanics and Computer Application in Civil Engineering, Hannover, Germany.

 

1967 – 1980               Principal Investigator and Project Manager Institute of Technical Sciences, of Serbian Academy of Sciences and Arts.

 

1966 - 1967                Postdoctoral Scholarship of Alexander von Humboldt Foundation University of Braunschweig, Pfleiderer Institute for Turbomachines, Braunschweig Germany.

 

1965 - Present           Principal Investigator and Project Manager, Department of Mechanics, Mathematical Institute of Serbian Academy of Sciences and Arts, Belgrade, Serbia – Yugoslavia.

 

1977 – 1998               Chair and Member of the Board, Research and Professional Contracts Institute of Mechanical Engineering at the Faculty of Mechanical engineering, University of Belgrade, Serbia, Yugoslavia.

 

1960 – 1970               Teaching Assistant

1970 – 1973               Assistant Professor (Docent)

1973 – 1977               Associate Professor

1977 – 1998                Professor and Chair of Department of Hydraulic Energy, University of Belgrade, Faculty of Mechanical Engineering, Beograd, Serbia – Yugoslavia.

 

 

4.1.2     Academic and Teaching

 

2003 - Present           Professor, part time instructor, Ryerson University, Toronto, Department of Physics (Department of Mathematics, Physics & Computer Science).

 

2005Present          Professor, part time instructor, Ryerson University, Toronto, G. Raymond Chang School of Continuing Education.

 

2003 – Present          Professor, part time instructor, Department of Civil Engineering, University of Toronto, Canada.

 

1993 – 1994               Visiting Professor, National University of Singapore, Singapore.

 

1979 – 1994               Part time Professor, University of Belgrade, Faculty of Mathematics, Department of Mechanics,

 

1960 – 1970               Teaching Assistant

1970 – 1973               Assistant Professor (Docent)

1973 – 1977               Associate Professor

1977 – 1998                Professor and Chair of Department of Hydraulic Energy, University of Belgrade, Faculty of Mechanical Engineering, Beograd, Serbia – Yugoslavia

 

1977 – 1998               Part time

·         University of Skopje

·         University of Sarajevo

·         University of Nis

 

                        Courses at some towns and sites

 

·       Tree Days Invited Seminar: Vancouver, British Columbia, 2014

·        Two Days Invited Seminar: Vancouver, British Columbia, 2011

·        Two Days Invited Seminar: Vancouver, British Columbia, 2009

 

·        A week invited visit to Indonesia: seminars and presentations

·        Kladovo (Iron Gate = Djerdap hydroelectric plants) Two years instructor

·        Trstenik part time instructor

·        Loznica part time instructor

·       Kraljevo part time instructor

 

 

4.1.3     Professional Engineer

 

2016                           International Chamber of Commerce (ICC) Expert in Arbitration Dispute Resolution (ADR) for unsafe hydroelectric plant design

 

2014                           Site C Clean Energy Project, BC Hydro – Working diner, Vancouver2014. Discussion to improve inproper design:

 

2011                           Consulting Engineer, PT Bukaka Teknik Utama, Jakarta, Indonesia. Poso 2 Hydroelectric Plant under construction at Sulawesy Island, Indonesia.

 

2008                           Power Plant upgrade project, St. Lawrence Seaway Lock 4, Ontario.

 

2006                           Consulting Engineer, PT Bukaka Teknik Utama, Jakarta, Indonesia.

 

2004                           Troubleshooting, Richard B. Russell Pump Storage Plant, Field System Machining Inc., South Elgin, IL USA.

 

2003                           Member of the Panel of Experts, Lahmeyer International GmbH, Friedberger, Germany, Troubleshooting, of 2000 MW (8x254 MW) "Masjed-E-Soleyman” Hydroelectric Plant, Iran.

 

2001                           Mechanical Engineer - Full time contract. Stone & Webster Canada L.P., a Shaw Group Company, Toronto, Ontario, Canada.

 

2001                           Mechanical Engineer - part time contract. Merlin General Corporation, Kincardine, Ontario. Client: Ontario Power Generation.

 

2000                           Mechanical Engineer – Part time contract, Acres International Limited, Niagara Falls, Ontario.

 

1998 – 1999               Mechanical Engineer - Full time contract, Canadian International Consortium: Hydro Québec & Rousseau Sauvé Warren (Montreal, Quebec) in Iranian Company Farab, Teheran.

 

1997-                           Consultant, - Insurance Company Preving Dunav", Belgrade, Serbia.

 

1987 – 1998               Head and Member of Hydro Mechanical Committee for Technical Review and Inspection, Hydroelectric and Navigation System "Djerdap II" (Iron Gate II) on the Section Prahovo (Yugoslavia) - Mare Island (Rumania).

 

1971 – 1989               Reviewer of Hydro Mechanical projects, JUGEL (Electricity Board of Yugoslavia).

 

1971 – 1989               Reviewer of Hydro Mechanical projects, EPS (Electricity Board of Serbia).

 

1959 – 1980               Consulting Engineer, Design Engineer, “Energoprojekt," Belgrade, Serbia- Yugoslavia.

 

 

4.1.4     Volunteer at Queens Park

 

2003 – Present           Member, PC Policy Advisory Council on Energy, Queens Park, Ontario.

 

 

4.2   Academic Degrees

 

1.     Expert International Chamber of Commerce (ICC)

2.     The best professor elected by secret ballot of full professors of Mechanical EngineeringFaculty, Belgrade

3.     Professor, University of Belgrade, Serbia (former Yugoslavia)

4.     Visiting Professor, National University of Singapore, Singapore

5.     Professional Engineers Ontario - P. Eng. licensed in Canada

6.     Inviting Professor, University of Hong Kong: Hong Kong.

7.     Ph.D. in Mechanical Engineering, certified by University of Toronto, Canada

8.     B.Sc. in Mechanical Engineering certified by University of Toronto, Canada

9.     Ph.D. in Mechanical Engineering, University of Belgrade

10.  Post doctor (PhD) scholarship of Alexander von Humboldt Foundation (Germany) at: University of Hannover, Institute for Fluid Mechanics and Computer Application in Civil Engineering, Hannover, Germany; University of Hanover, Institute for Turbomachines (Rotating Machines), Hannover, Germany; University of Braunschweig, Pfleiderer Institute for Turbomachines, Braunschweig, Germany

11.  B.Sc. in Mechanical Engineering, University of Belgrade

 

 

4.3  Awards

 

4.3.1     Academic and Research

 

1.     A special section entitled Hydraulic Systems / Pejovic Special Session, IAHR (International Association for Hydraulic Research), Symposium in Montreal 2014 (http://iopscience.iop.org/1755-1315/22/4). This was specifically arranged to honour some of his previous work and thereby to stir up interest for a new initiative relating to Physical and Mathematical instabilities

2.       Member of the Policy Advisory Council on Energy, Queens Park, Toronto (2003).

3.     Visiting Professor, National University of Singapore (1993 - 1994).

4.     University of Hong Kong, collaborative research and seminars within the Department of Mechanical Engineering (May - July 1993).

5.     Member of the Serbian Scientific Society (1996).

6.     External Examiner, PhD, National University of Singapore (1995).

7.     Alexander von Humboldt Stiffing post doctor Scholarship, Germany.

8.     Nominated for membership of the Serbian Academy of Sciences and Arts (1991).

 

4.3.2     Academic and Teaching

 

9.     The best professor elected by secret ballot of full professors of Mechanical EngineeringFaculty, Belgrade, 1991.

10.  ASME 25 Year Membership Award.

11.  Certificate of Recognition, IEEE Canada, Electric Power Conference 2007, Montreal.

12.  Certificate of Recognition, IEEE Ottawa Section, (2005) for seminar.

 

4.3.3       Professional Engineering

 

13.  ASME Ementor (2001 – 2002).

14.  Appreciation of the ASME Executive Committee, Singapore Chapter for contribution to the Mechanical Engineering Profession in Singapore (1994).

15. Official award from Hydro Power Plants "Perucica" for long and successful collaboration in research and development of their system (1985).

16.  Official award from Hydro Power Plant "Bocac" for collaboration during construction (1983).

 

 

 

4.4   Research

 

4.5  Project Manager and Team Member  

 

1.    On-Line Profit Management and Control of Hydraulic Machines and Plants.

2.    Transients of Hydraulic Systems, Mathematical Institute of Serbian Academy of Sciences and Arts, Department of Fluid Mechanics.

3.    Hydraulic Transients and Stability of Hydraulic Systems, Mathematical Institute of Serbian Academy of Sciences and Arts, Department of Fluid Mechanics.

4.    Monitoring and Computer Optimization of Hydro Powerplants in the Energy System.

5.    Guidelines for Calculating the Transients in Pumping Systems and Pumping Auxiliary Systems in Hydro and Thermal Power Plants, 1989.

6.    Study of Vibrations in the High Pressure Oil System of the 300 MN Press.

7.    Vibrations of Turbine Units of Hydro Power Plant "Bajina Basta" during Back to Back Start in Pumping Mode of Operation the Pump-Turbines of Pumped Storage Power Plant "Bajina Basta."

8.    Guidelines to Measurement and Analysis of Oscillations of the Hydro Power Plant Units, 1987.

9.    Guidelines for Calculating the Transients in Hydro Power Plants, 1984.  

10.  Hydraulic Vibrations of Hydraulic Systems, 1979.

11.  Study of Reverse Water Hammer in Kaplan and Bulb Turbines, 1978.

12.  Study of Reverse Water Hammer in Hydraulic Turbines with a Special Account of Kaplan Turbines, 1977.

 

4.6  Project Team Member

 

1.    Possibility of Compressed Natural Gas Implementation for Automotive Applications in Serbia, 1996.

2.  Improving of the Characteristics of Hydraulic and Thermal Powerplants, Part: Numerical Analyses of Transients, Faculty of Mechanical Engineering, Belgrade, 1994 /1995.

3.    Pump under Steady Oscillatory Condition and Its Influence on the System, University of Hong Kong, Department of Mechanical Engineering, 1993. (Dunn A., Pejovic S., Lai C. K., Investigators: Dynamic response of variable speed pumping system).

4. Pump Operation in the Unstable Range and in Zone of Negative Flow, Institut für Strömungsmaschinen der Universität Hannover, Germany, 1991.

5.    Guidelines for Measurement and Calculating the Transients in Hydro Power Plants, 1986.

6.    Maintenance of the Machine Equipment of Hydro Power Plants for the Improvement of Safety and Operating Availability.

7.    Inspection of the Machine Equipment of Hydroelectric Systems in Order to Increase the Operating Availability of the Plant.

8.    A Model of Optimum Exploitation of the Hydro Power Navigation Systems "Djerdap I" and "Djerdap II"("Iron Gate I" and Iron Gate II").

9.    Bulb Units Island Operation, Institute "Nikola Tesla", Belgrade, Serbia, 1984, pp. 140.

 

4.7  Theoretical Analysis

 

1.    Operating Diagrams of Hydro Power Plant "Trebinje I", Yugoslavia, Faculty of Mech. Eng., Belgrade, Serbia, Yugoslavia, 1986.

2.    Analysis of Flow at the Intake Structure of Vertical Tunnel at "Banovo Brdo" Water Treatment Plant, Belgrade Water Supply and Sewerage System (in collaboration with Lj. Krsmanovic and A. Gajic), Yugoslavia.

 

4.8  Computer Programs

 

1.    Pumping Plant Profit On-Line Management and Control, 1996.

2.    Hydroelectric Plants Profit On-Line Management and Control, 1996.

3.  Computer program for hydraulic vibration and stability analysis of hydropowerplants and pumping systems based on graph theory adapted to the test bed designed and constructed at the University of Hong Kong, 1993.

4.    Computer program for hydraulic vibration and stability analysis of hydro power plants, pumping systems, elastic tubes (internal or external artificial systems of pulsatile human blood systems) and high pressure oil hydraulic components based on graph theory.

5.    Computer program for hydraulic transient analysis (waterhammer).

6.    Computer program for Calculations of Potential Danger in Hydro Power Plants with Kaplan and Bulb Systems due to Reversible Water Hammer and Elevation of unit’s Rotor, Belgrade, 1982, Yugoslavia.

7.    Computer Program for Calculation of Transient Processes in Hydro Power Plants with a Double Regulation based on the Rigid Water Column Theory, Belgrade, 1982, Yugoslavia.

8.    Mathematical Model for Optimum Use of the Hydro Power and Navigation System "Djerdap I" ("Iron Gate I") and "Djerdap II" ("Iron Gate II") (in Serbo-Croatian), Inst. for Water Management "J. Cerni" and Faculty of Mechanical Engineering, Belgrade, 1981, pp. 102 (Coauthor).

 

 

4.9    PhD, MSc, Journal, Conference, Grant, Project Reviewer

 

4.9.1     Academic and Research Reviewer

 

1.     Measurement, Journal of the International Measurement Confederation

2.      ASCE (American Society of Civil Engineers) Journal of Hydraulic Engineering.

3.     ASME (American Society of Mechanical Engineers) Journal of Fluid Engineering.

4.     Conference abstract / papers reviewer for Proceedings of 15th IAHR (International Association for Hydraulic Research) Symposium on Hydraulic Machinery and Cavitation, Belgrade, Yugoslavia, 1990.

5.     Reviewer of PhD and MSc theses at the University of Toronto.

6.     PhD Thesis External Examiner, National University of Singapore, 1995.

7.     PhD. And MSc Theses, University of Belgrade, Serbia, Yugoslavia

8.     Mentor to MSc. thesis at the Faculty of Mechanical Engineering, University of Sarajevo, Bosnia and Herzegovina, Yugoslavia.

9.     Member of the Board for nine PhD. and many MSc, dissertations University of Belgrade, Serbia, Yugoslavia.

10.  Member of the Board for a great number of graduation theses, University of Belgrade, Serbia, Yugoslavia.

 

 

 

4.9.2     Professional Engineering Reviewer

 

1.    Review of Las Vegas Water System Energy Recovery Projects (Small turbine in the drinking water system), Hydratek Associates, Ajax, Ontario, Canada, 2006.

2.    Lawsuit: Review of the Report for the patent for valves, Singapore

3.    Review of construction of Hydro Powerplant "Masjed-E-Soleyman", Iran.

4.    Review of construction of Hydro Powerplant "Karun III", Iran.

5.    Review of construction of Hydro Powerplant "Karun I", Iran.

6.    Review of construction of Hydro Powerplant "Karkheh", Iran.

7.    Review of similarity between the model and prototype for hydroelectric plant “Masjed-E-Soleyman" (4x254).

8.   Review of manufacturers' transient analyses and water column separation booklets for Iranian Hydroelectric Plants under construction for hydroelectric plant “Masjed-E-Soleyman" (4x254),

9.    Review of manufacturers' stress analysis booklets and drawings for hydroelectric plant “Masjed-E-Soleyman" (4x254).

10.   Review of the Poso 2 Hydroelectric Project, Bukaka Teknik Utama Btr, Jakarta, Indonesia, 2006.

11.   Review of water Cooling System, PPN (Pillaiperumalnallur) Combined Cycle Power Plant, India.

12.  Peristaltic pumps in sampling stations – Review and troubleshooting of flow measurements in sampling stations in operation. Site review and review of calibration reports. Nuclear Waste Storage, Bruce, Ontario, Canada

13.  Nuclear waste aging management – Monitoring of radioactivity in effluent and environment at Nuclear Waste Storage, Bruce, Ontario, Canada.

14.  Review of the Dry Storage Modulus (Thermal, Welding and Climate Effects), Nuclear Waste Storage, Bruce, Ontario, Canada.

15.  Underground Containers IC-18 (Climate Effects: Thermal Cycle Stresses, Pressure Fluctuation and Wind Erosion), Nuclear Waste Storage, Bruce, Ontario, Canada.

16.   Reviewer and Member of Reviewers’ Panel of Hydro Mechanical Designs of Hydro Power Plants and Pumped Storage Power Plants, Electricity Board of Yugoslavia.

17.   Reviewer and Member of Reviewer’s Panel of Hydro Mechanical Designs of Hydro Power Plants and Pumped Storage Power Plants, Electricity Board of Serbia.

18.  Reviewer  and Member of Reviewer’s Panel of Hydro Mechanical Designs of Hydro Power Plant, Pumped Storage Power Plants, Pump Plants, Hydraulic Systems of Thermal, “Energoprojekt,” Beograd.

19.   Head and Member of the Committee of the Negotin Municipality for Review and Technical Inspection of the Main Object of the Hydropower and Navigation System "Djerdap II" (Iron Gate II) on the Section Prahovo (Yugoslavia) - Mare Island (Rumania)(1987).

 

 

4.10   Chairmanship

 

4.10.1  Chairman of Organizing Committees

 

1.    Chairman of the Organizing Committee of the 15th Symposium of the IAHR (International Association for Hydraulic Research), Section on Hydraulic Machinery, Equipment and Cavitation, Belgrade, Yugoslavia, 1990.

2.    Chairman of the Organizing Committee: Round Table on Hydraulic Transients in Hydro Power Installations, Belgrade, June 19 and 20, 1986, sponsored by Institute of Technical Sciences of Serbian Academy of Sciences and Arts, Faculty of Mechanical Engineering - Belgrade, "Energoprojekt" - Belgrade and Belgrade Water Supply and Sewerage System.

 

4.10.2  Chairman of Sections of Professional Meetings

 

1.   Chair, Panel Sessions Chair, Hydro Power and Storage Technology. IEEE CANADA, Electrical Power and Energy Conference 2009, Sustainable/ Renewable Energy Systems and Technologies," Montreal, Quebec, Canada.

2.   Chair, Panel Session: University Sport: Toward Improving Public Health, World University Presidents Summit: Current Trends in Higher Education, April, Belgrade, 2009.

3.   Chair, Panel Session: Hydro Power Technology, Prospects of Hydro Small and Big Renewable Energy Resources in Canada and Abroad, IEEE Canada, Electrical Power Conference 2007, "Renewable and Alternative Energy Resources," Montreal, Quebec, Canada.

4.   Chair, Session Th-P-2: Hydro Power Technology IEEE Canada, Electrical Power Conference 2007, "Renewable and Alternative Energy Resources," Montreal, Quebec, Canada.

5.   Chairman of a Section at the International Conference on Case Studies in Hydraulic Systems CSHS 03, Belgrade, Serbia, 2003.

6.   Chairman of a Section at the 21st IAHR (International Association for Hydraulic Research), Symposium, Lausanne, Switzerland, 2002.

7.   Chairman of a Section at the XXIInd Yugoslav Congress of Theoretical and Applied Mechanics, Vrnjacka Banja, Serbia, Yugoslavia, 1997.

8.   Chairman of a Section at the International Conference on Technical Systems and Fire, Explosions, Damages and Burglary Protective Means, “Preving Dunav,” Belgrade, Yugoslavia, 1996.

9.   Chairman of a Section at the 18th IAHR (International Association for Hydraulic Research) Symposium on Hydraulic Machinery and Cavitation, Valencia. Spain, 1996.

10. Chairman of a Section at the XXIst Yugoslav Congress of Theoretical and Applied Mechanics, Nis, Serbia, Yugoslavia, l995.

11. Chairman of a Section at the 17th IAHR (International Association for Hydraulic Research) Symposium on Hydraulic Machinery and Cavitation, Beijing 1994.

12. Chairman of a Section at the 17th Conference of the Union of Serbian Power Engineers, Budva, 1991.

13. Chairman of a Section at the Meeting of the Work Group on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Milano 1991.

14. Chairman of a Section at the 15th International Symposium of the International Association for Hydraulic Research, Belgrade, 1990.

15. Chairman of Sections at the Meeting on Design, Construction and Operation of the Municipality Pumping Systems, Kopaonik, 1989.

16. Chairman of a Section at the Conference on Hydraulic Machinery, Forty Years of Turboinstitut, Ljubljana, Yugoslavia 1988.

17. Chairman of Sections of the Round Table on Hydraulic Transients in Hydro Power Installations, Belgrade, Hall of Serbian Academy of Sciences and Arts, 1986.

18. Chairman of a Section at the 13th International Symposium of the International Association for Hydraulic Research, Montreal, 1986.

19. Chairman of a Section at the Meeting of the Work Group on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Mexico, 1985.

20. Chairman of a Section at the Hydraulic Machinery and Measurements Conference, on the Occasion of the 35th Anniversary of Turboinstitut, Ljubljana, 1984.

21. Chairman of a Section at the 12th Conference of the Union of Serbian Power Engineers, Porec, 1981.

22. Chairman of a Section at the 10th International Symposium of the International Association for Hydraulic Research, Tokyo, 1980.

23. Chairman of a Section at the Scientific and Professional Meeting "Masinstvo 1873-1973", Belgrade, 1973.

 

 

4.11    Memberships

 

1.     Member of “Serbian Krivak” Association (2013)

2.     Member of the Policy Advisory Council on Energy of the Progressive Conservative Party of Ontario (2003).

3.     Member of the National Program Committee of the International Conference on Case Studies in Hydraulic Systems – CSHS ’03, Belgrade, Serbia, 2003

4.     Member of the Serbian Scientific Society.

5.     Member of the Thermal Engineering Subcommittee of the ASME (American Society of Mechanical Engineers) Singapore Chapter.

6.     Member of the International Organizing Committee of the International Conference on Unsteady Flow and Fluid Transients, 1992, Durham, England (1992).

7.     Member of the International Association for Hydraulic Research - IAHR. Member of International Organizing Committee of the International Conference on Unsteady Flow and Fluid Transients, 1992, Durham, England (1992).

8.     Member of the Technical Committee of the Power Association of Serbia (1989).

9.     Member of the Editorial Committee of the Journal "Saopstenja" of the Faculty of Mechanical Engineering, Belgrade (1989).

10. Member of the Committee of the IAHR (International Association for Hydraulic Research), Section on Hydraulic Machinery and Cavitation (1988 - 1996).

11. Member of Hydro Power Technical Committee, Power Division, American Society of Mechanical Engineers (ASME) (1987).

12. Member of the Council of the International Research Centre on Hydraulic Machinery (Beijing), China (1987).

13. Member of the International Editorial Committee of Book Series on Hydraulic Machinery (1986).

14. Member of the American Society of Mechanical Engineers - ASME (1984).

15. Member of the International Association for Hydraulic Research - IAHR (1976).

16. Yugoslav Association of Engineers and Technicians (1962).

 

 

4.12    Invited lectures:

 

1.      Invited lecture: Lack of continuing education - Commercial computer programs most dangerous for users (In Serbian: Nedostatak kontinuiranog obrazovanja - Komercijalni računarski programi najopasniji za korisnike, link:

http://stanpejovic.com/Pejovic MF14Apr2016Nedostatak kontinuiranog obrazovanja.pdfhttp://krivak.rs/images/stories/aktivnosti/RaznaObavestenja/Stanislav_Pejovic_Pozivnica_za_predavanje.pdf ; http://krivak.rs/index.php?start=50

2.      Invited Seminar: The Challenge and Opportunity of 21st Century Hydro (All) – a guided SWOT analysis, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link:

https://www.apeg.bc.ca/getattachment/Events/Events/14NOVEHP/APEGBC_Essential_Hydro_Power_Seminar_Day3.pdf.aspx  

3.     Tree Days Invited Seminar: Essential Hydro Power, S. Pejovic, T. Maricic and B. Karney>, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link: https://www.apeg.bc.ca/Events/Events/14NOVEHP

4.     Two Days Invited Seminar: Turbomachines in Hydroelectric Plants: Selection, Operation, Hydroelectric Plant Operating Diagrams, S. Pejovic, T. Maricic and B. Naser, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2012

5.     Two Days Invited Seminar: Turbomachines in Hydroelectric Plants: Selection, Operation, Hydroelectric Plant Operating Diagrams, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2009.

6.     Hydro Power and Storage Technology, Professional Engineers Ontario, Mississauga PEO Chapter, October 28, 2009.

7.     Energy Storage Technology, (Karney W.B., with Pejovic S.), PEO (Professional Engineers Ontario), 6 October 2008.

8.     Layout of Hydroelectric Plants, Presentation to Managers and Engineers, and Review of the Poso 2 Hydroelectric Project, Bukaka Teknik Utama Btr, Jakarta, Indonesia, 2006.

9.     Progress of Analysis & Designs, Presentations to the engineers designing and constructing hydroelectric plants. Site of Poso 2 hydroelectric plant, Sulawesi Island, Indonesia, 2006.

10.  An Introduction to Modeling, Presentations to the engineers designing and constructing hydroelectric plants. Site of Poso 2 hydroelectric plant, Sulawesi Island, Indonesia, 2006.

11.  Pumped Storage Plants Economic and Environmental Benefits: Best Efficiency – Free Spinning Reserve – Stability, Presentations to the engineers designing and constructing hydroelectric plants. Site of Poso 2 hydroelectric plant, Sulawesi Island, Indonesia, 2006.

12.  Economic and Environmental Benefits of Pumped Storage Schemes, University of Toronto, 20 January 2005, Presentation to graduate students.

13.  Achieving Cleaner and More Efficient Electricity Production Using Free Spinning Reserve, Seminar by the IEEE Ottawa Robotics/PES/RS Chapters and Educational Activities, 2005.

14.  Introduction to Pumps and Pumping (Bryan Karney and Stanislav Pejovic), University of Toronto, Toronto, Ontario, Canada, June 2003 organized by Ministry of the Environment and Energy, Ontario, Canada.

15.  Hydropowerplants, Hydraulic Transients and Vibrations, Engineers at FARAB and other firms and Iranian authorities, Teheran, Iran, 1998.

16.  Hydropowerplants Profit On-Line Management and Control, Fluids Panel, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia in Collaboration with International Editorial Committee for Book Series on Hydraulic Machinery, United Kingdom, Malaysia 1997.

17.  Influence of Gas Bubbles and Cavitation on Similarity of Hydraulic Transients, International Seminar on Recent Trends in Hydropower Plants & Machines, Fluids Panel, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia in Collaboration with International Editorial Committee for Book Series on Hydraulic Machinery, United Kingdom, Malaysia 1997.

18.  Real Turbine Transfer Matrix for Stability Analyses. Fluids Panel, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia in Collaboration with International Editorial Committee for Book Series on Hydraulic Machinery, United Kingdom, Malaysia 1997.

19.  Air Influence on Theoretical and Real Hydraulic Stability of a System, Serbian Scientific Society, Belgrade, 1995.

20.  Accidents Due to Hydraulic Transients, American Society of Mechanical Engineers, Singapore Chapter, 1994.

21.  Hydraulic Transients - Stability, Vibrations, Waterhammer, University of Hong Kong, 1993.

22.  Hydraulic Transients and Vibrations. Meeting of Managers of Insurance Company "Dunav", Zlatibor, 1990.

23.  Cavitation in Pumps and Pressure Surges in Pumping Systems (in Serbo-Croatian), Association for Water Treatment, Belgrade, 1990, pp. 33-52.

24.  Cases and Incidents Due to Hydraulic Transients - Yugoslav Experiences, International Congress on Cases and Accidents in Fluid Systems, São Paulo, Brazil, 1989, pp. 181-223.

25.  Hydraulische Schwingungen und Druckstoss (Jugoslavische Erfahrungen), Institut für Strömungsmechanik und Elekron. Rechenen im Bauweswn, Universität Hannover, Deutschland, 1988.

26.  Hydraulic Transients and Vibrations (in Serbo-Croatian), Round Table on Hydraulic Transients in Hydro Power Installations, Institute of Technical Sciences of Serbian Academy of Sciences and Arts, Belgrade, 1986, pp. 1-52.

27.  Pressure Surges and Vibrations in Hydropower Plants - Experiences in Yugoslavia, International Editorial Committee Book Series on Hydraulic Machinery, Inaugural Meeting, Beijing, China, 1986.

28.  Hydraulic Transients and Hydraulic Oscillations (in Serbo-Croatian), Symposium '85, Drustvo za mehaniku Srbije, Vrnjacka Banja, 1985, pp. 35-77.

 

 

4.13   Laboratory and Site Test Studies

 

4.13.1    Laboratory at the University of Toronto

 

1.    Pelton turbine model tests stand updated for the students’ course: CIV1099 Design of Hydro and Wind Electric Plants (for the first time in North America), 2010.

 

4.13.2  Laboratory Studies

 

1.    Laboratory Tests of the Pump under Steady Oscillatory Condition and Its Influence on the System, University of Hong Kong, Department of Mechanical Engineering, 1993

2.    Laboratory Tests and Study of Flow in the Reconstructed Runners of Chemical Pump HP 65-250, Chemical Industry "Zorka", Sabac, Serbia, Yugoslavia, 1985.

3.    Laboratory Tests of Fans CV-300 and CV-268 for Special Operating Conditions, Faculty of Mech. Eng., Belgrade, Yugoslavia 1984.

4.    Laboratory Tests of the Chemical Pump NP 65-250 at the Faculty of Mechanical Engineering, Belgrade, Yugoslavia (a team work).

5.    Flow Measuring Device, Calibration on the Model for Water Storage Reservoir "Celije" at the Faculty of Mechanical Engineering, Belgrade, Yugoslavia.

6.    Flow Measuring Device, Calibration on the Model for Water Storage Reservoir Bovan" at the Faculty of Mechanical Engineering, Belgrade, Yugoslavia.

7.    Laboratory Tests of Sludge Centrifugal Pump at the Faculty of Mechanical Engineering, Belgrade, Yugoslavia.

8.    Laboratory Tests of Special Centrifugal Pump for Petrochemical Industry, Yugoslavia.

 

4.13.3  Model Acceptance Tests

 

1.     Model Tests of the Turbines for the Poso 2 Hydroelectric Project, Bukaka Teknik Utama Btr, Jakarta, Indonesia in "Harbin Electric Machinery Co. Ltd.", Harbin, China.

2.     Model Tests of the Turbines for the "Masjed-E-Soleyman" Hydro Power Plant. Iran in "Harbin Electric Machinery Co. Ltd.", Harbin, China.

3.     Model Tests of the Turbines for the "Karkheh" Hydro Power Plant, Iran, in "Harbin Electric Machinery Co. Ltd.", Harbin, China.

4.     Model Tests of the Turbines for the "Visegrad" Hydro Power Plant, Bosnia and Herzegovina, Yugoslavia in "Toshiba", Tokyo, Japan, 1986.

5.     Model Tests of the Reversible Pump-Turbines for the Pumped Storage Plant "Bajina Basta," Serbia, Yugoslavia in the "Toshiba" Factory, Japan.

6.     Model Tests of the Reversible Pump-Turbines for the Pumped Storage Plant "Bajina Basta," Serbia, Yugoslavia in the "Voith" Factory, West Germany.

7.     Model Tests of the Turbines for the "Mratinje" Hydro Power Plant in "Turboinstitut", Ljubljana, Yugoslavia.

8.     Model Tests of the Turbines for the "Grabovica" Hydro Power Plant in "Turboinstitut", Ljubljana, Yugoslavia.

9.     Model Tests of the Turbines for the "Bocac" Hydro Power Plant in "Andritz" Company, Austria.

10.  Model Tests of the Turbines for the "Djerdap I" Hydro Power Plant in "Turboinstitut", Ljubljana, Yugoslavia.

11.  Model Tests of the Turbines for the "Mostar" Hydro Power Plant in "Turboinstitut", Ljubljana, Yugoslavia.

12.  Model Tests of the Turbines for "Zavoj" Hydro Power Plant in CKD Blansko, Czechoslovakia.

13.  Model Tests, Hydroelectric Plants on the River Vlasina

 

4.13.4  Laboratory Acceptance Tests

 

1.    Pumps for "El Mulak", Egypt, in the "Litostroj" Factory, Ljubljana, Yugoslavia.

2.    Pumps for Budva Waterworks in the Factory "Pelizzari", Italy.

3.    Regulators and Equipment for the Hydro Power Plant "Mratinje" in the "Litostroj" Factory, Ljubljana, Yugoslavia.

4.    Auxiliary Pumps of the Hydro Power Plant "Djerdap I", in the "Litostroj" Factory, Ljubljana, Yugoslavia.

5.    Fans for the "Djerdap I", Hydro Power Plant in the "14. December" Factory, Belgrade, Yugoslavia.

6.    Oil Pumps for the "Djerdap I" Hydro Power Plant in "Prva Petoljetka" Factory, Trstenik, Yugoslavia.

7.    Drainage Pumps for the "Mratinje" Hydro Power Plant in the "Litostroj" Factory, Ljubljana, Yugoslavia.

 

4.13.5  Chief Engineer:  Site Acceptance Tests

 

1.     Hydroelectric Plant “Bocac” (2x50 MW), field acceptance tests, Chief engineer. Bosnia and Herzegovina, Yugoslavia.

2.    Field Tests of the Hydraulic Transients in the Ranney Wells of the Belgrade Water Supply and Sewerage System, Yugoslavia (Chief Engineer).

 

4.13.6  Site Acceptance Tests

 

1.    Final Field Tests of the "Bocac" Hydro Power Plant, Montenegro, Yugoslavia. 

2.    Field Tests of the Pumps for the Irrigation System "El Mulak", Egypt.

3.    Field Test of the "Vlasina" Hydro Power Plants (Vrla I, II, III and IV - Second Faze), Yugoslavia.

4.    Field Tests of the Fans at FOP "Matroz", Sremska Mitrovica, Yugoslavia.

5.    Turbines for the Hydro Power Plant "Trebinje I" (Grancarevo) Measurements of the Operational Characteristics in Situ, Yugoslavia.

6.    Turbines for the Hydro Power Plant "Potpec", Measurements of the Operational Characteristics in Situ", Yugoslavia.

 

4.13.7  Site Tests 

 

1.      Site tests, troubleshooting of draft tube surges and self-exciting vibrations, Hydroelectric Plant “Bocac” (2x50 MW), Bosnia and Herzegovina, Yugoslavia

2.      Measurements of Hydraulic Transients and Vibrations in Hydropower Plant "Djerdap I" (Iron Gate I), Serbia, Yugoslavia, 1989.

3.      Field Tests of Autooscillations of the Breaking Nozzle's Valve in the Hydro Power Plant "Perucica", Montenegro, Yugoslavia, 1988.

4.      Field Tests of Autooscillations of the Spherical Valve in the Hydro Power Plant "Perucica Montenegro," Yugoslavia, 1988.

5.      Measurements of Hydraulic Transients in the Main Suction Tunnel of Belgrade Waterworks, Yugoslavia, Inst. for Water Management "J. Cerni" and Faculty of Mech. Eng., Belgrade, 1986.

6.      Vracar II" Pumping Station, Belgrade Waterworks, Yugoslavia, 1985.

7.      Discharge Measurements in the Water System of Asbestos Mine "Kolubara - Azbest", Stragari, Serbia, Yugoslavia, 1985.

8.      Field Tests of Hydraulic Transient Phenomena at the Hydro Power Plants of Vlasina, Serbia, Yugoslavia.

9.      Field Tests of the Hydraulic Transients in the Ranney Wells of the Belgrade Water Supply and Sewerage System, Yugoslavia (Chief Engineer).

10.   Investigation of Operating Conditions and Cases of Damage the Bearings in Pumping Station "Vracar II", Belgrade, Yugoslavia.

11.   Field Tests of the Hydraulic Transients, Hydro Power Plant "Uvac", Yugoslavia.

12.   Field Tests of the Hydraulic Transients of the "Debeli Lug" Pumping Station of the Copper Mines Majdanpek, Yugoslavia.

13.   "Pustinjac I & II" Pumping Stations of Copper Mine.  "Majdanpek": Hydraulic transient site tests.

14.   Field Tests of the Low Pressure Tunnel for Drinking Water of the Pumping System in Belgrade, Yugoslavia.

 

 

 

4.14   Courses at the Universities

 

4.14.1          Courses to Graduate Students

 

·         University of Toronto

1.   CIV1099 Design of Hydro and Wind Electric Plants (for the first time in North America)

2.   CIV 1099 Energy Transformation Systems

·         Ministry of the Environment and Energy, Toronto, Ontario, Canada

1.    Introduction to Pumps and Pumping (Bryan Karney and Stanislav Pejovic), University of Toronto, Toronto, Ontario, Canada, June 2003

·         Electricity Board of Yugoslavia – Hydroelectric Plant "Djerdap"

1.    Transient Phenomena in Hydroelectric Plants

2.    Hydroelectric Plants - a General Course

·         National University of Singapore

1. Pumps in Pumping Systems

2. Failures of Pumping Systems Caused by Waterhammer and Hydraulic Vibrations

·         University of Skopje, Faculties of Mechanical Engineering

1.  Transient Phenomena in Hydroelectric Plants and Pumping Systems.

·         University of Sarajevo, Faculties of Mechanical Engineering

1.     Transient Phenomena in Hydroelectric Plants and Pumping Systems

 

 

4.14.2    Undergraduate Courses

 

·         University of Toronto, Canada

1.    EDV301 Design of Hydro and Wind Electric Plants (for the first time in Horth America)

2.    MIE270F Fluid Mechanics I, Fall 2004

 

·         Ryerson University, Toronto, Canada

1.      PCS106 Physics for Health Sciences

2.     CPCS120 Physics I

3.     PCS130 Physics II

4.     CPCS130 Physics II

5.     CPCS211 Physics II: Mechanics

6.     CPCS106 Physics for Health Sciences

7.     PCS110 Physics

8.     PCS125 Physics I

·         National University of Singapore

1.    Fluid Mechanics 3

2.    Mechanical System Design - Final Year Design Project

 

·         University of Belgrade

1.    Turbomachines

2.    Measurements and Instrumentation

3.    Design of Hydraulic Systems

4.    Hydraulic System Components

5.    Hydro Power Plant and Pumping System Design

6.    Thermal Turbomachines (Turbofans)

7.    Theory of Turbomachines

8.    Hydraulics and Hydraulic Machinery

9.    Compressors

 

4.14.3     Seminars

 

1.     Invited Seminar: The Challenge and Opportunity of 21st Century Hydro (All) – a guided SWOT analysis, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link:

2.     https://www.apeg.bc.ca/getattachment/Events/Events/14NOVEHP/APEGBC_Essential_Hydro_Power_Seminar_Day3.pdf.aspx

3.     Tree Days Invited Seminar: Essential Hydro Power, S. Pejovic, T. Maricic and B. Karney>, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link: https://www.apeg.bc.ca/Events/Events/14NOVEHP

4.     Two Days Invited Seminar: Turbomachines in Hydroelectric Plants: Selection, Operation, Hydroelectric Plant Operating Diagrams, S. Pejovic, T. Maricic and B. Naser>, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014

5.     Two Days Invited Seminar: Turbomachines in Hydroelectric Plants: Selection, Operation, Hydroelectric Plant Operating Diagrams, S. Pejovic, T. Maricic and B. Naser, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2012

6.     Two Days Invited Seminar: Turbomachines in Hydroelectric Plants: Selection, Operation, Hydroelectric Plant Operating Diagrams, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2009,

7.     Extreme Theoretical Pressure Oscillations in Coronary Bypass (authors: Ana Pejović-Milić, Ryerson University, CA; Stanislav Pejović, University of Toronto, CA; Bryan Karney, University of Toronto, CA, Mini Seminar at the University of Toronto, October 2003,

8.     Case Studies, Mini Seminar at the University of Toronto,

9.     Fluids Panel, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia in Collaboration with International Editorial Committee for Book Series on Hydraulic Machinery, United Kingdom,

10. American Society of Mechanical Engineers, Singapore Chapter,

11. University of Warwick, Department of Engineering, Coventry, England,

12. National University of Singapore, Department of Mechanical & Production Engineering,

13. University of Hong Kong, Department of Mechanical Engineering,

14. "Energoprojekt", Belgrade,

15. Department of Mechanics, Mathematical Institute, Belgrade,

16. University of Belgrade, Faculty of Mechanical Engineering.

 

 

4.15   Academic Diplomas

 

4.15.1  Diplomas Certified in Canada

 

·        Ph.D. in Mechanical Engineering University of Belgrade, certified by University of Toronto, Canada as of March 25, 2002.

·        B.Sc. in Mechanical Engineering University of Belgrade, certified by University of Toronto, Canada as of March 25, 2002.

·       Professional Engineers Ontario - P. Eng. licensed in Canada as of November 11, 2002.

 

4.15.2  Diplomas 

 

·       Ph.D. in Mechanical Engineering. University of Belgrade, Yugoslavia.

·       B.Sc. in Mechanical Engineering. University of Belgrade, Yugoslavia.

 

4.16 Post doctor scholarships

 

1.     University of Hannover, Institute for Turbomachines (Institut für Strömungsmaschinen) Germany (April - July 1992).

2.     University of Hannover, Institute for Turbomachines (Institut für Strömungsmaschinen) Germany (July - September 1991).

3.     University of Hannover, Institute for Turbomachines (Institut für Strömungsmaschinen) Germany (June - September 1989).

4.     Institute for Turbomachines and Institute for Fluid Mechanics and Computer Application in Civil Engineering, University of Hannover, Germany  (August - October 1988).

5.     Institute for Turbomachines and Institute for Fluid Mechanics and Computer Application in Civil Engineering, University of Hannover, Germany(August - October 1987).

6.     Pfleiderer Institute for Turbomachines, University of Braunschweig, Germany, Internal flow in turbomachines (1966/1967).

 

 

4.17   Languages

 

4.17.1  Read, Write, Speak

ü  English

ü  Serbian

ü  Croatian

 

4.17.2  Read, Understand

ü  German

ü  Russian

ü  Ukrainian

ü  French

ü  Macedonian

ü  Bulgarian

ü  Slovenian

 

 

 


 

 

5          List of Publications

 

5.1.1     PhD Thesis

1.    Pejovic S., A Contribution to the General Theory of Three-Dimensional Axially Symmetrical Flow in Turbomachines (in Serbo-Croatian), University of Belgrade, 1964. <Full text>

1.1.  PhD Thesis: Link to the Full Text (in Serbo-Croatian) Link: Part 1 and Part 2

1.2.  Articles related to the PhD thesis in German

1.3.  Articles related to the PhD thesis in English and Serbian

5.1.2     BSc Thesis

2.    Pejovic S., Three-Dimensional Axially Symmetrical Compressible Flow in Compressors. University of Belgrade, Faculty of Mechanical Engineering, 1958.

2.1.  BSc Thesis: Link to the Full Text (in Serbo-Croatian; Abstract in English)

2.2.  Article related to the BSc Thesis: Pejovic S., An Approximate method of Calculating Three- dimensional Compressible Flow in Turbomachines (in Serbo-Croatian; Abstract in English), Zbornik Masinskog Fakulteta, Belgrade, 1959-60, pp. 8.1 - 8. <Full text>;

5.1.3     White Papers

3.    Pejovic S., White Paper on Hydro Energy Storage, Report, Centre for Urban Energy, Faculty of Engineering, Architecture & Science, Ryerson University, Toronto, Ontario, Canada, 2011. 2011 Link: WP on Hydro Energy Storage S Pejovic.pdf

4.      Pejovic S., Hydraulic Systems and Water Energy Storages at High Risk. Lessons to Learn, Article / Report, Ryerson University, Faculty of Engineering, Architecture and Science, Centre for Urban Energy, Toronto, 2011

 

5.1.4     Books

1.        Pejovic S., The Rules to Hydraulic Transient Design Analysis for Investors, Designers, Manufacturers, Managers, 2017, under reviewPejovic S., The Rules to Hydraulic Transient Design Analysis for Investors, Designers, Manufacturers, Managers, 2017, under review

5.     

1.    Pejovic S., The Rules to Hydraulic Transient Design Analysis for Investors, Designers, Manufacturers, Managers, 2017, under review

6.    Pejovic S., (Co-Author), The Guide to Hydropower Mechanical Design, Prepared by ASME (American Society of Mechanical Engineers) Hydro Power Technical Committee, 2014, new edition under review.

7.    Pejovic S., (Co-Author), The Guide to Hydropower Mechanical Design, Prepared by ASME (American Society of Mechanical Engineers) Hydro Power Technical Committee, HCI Publication, 1996 pp. 374. <Book Presentation>

8.      Gajic A., Pejovic S., Turbomachines - Illustrative and Solved Examination Problems (in Serbo-Croatian), Masinski Fakultet, Beograd, 1993, pp. 239.

9.      Pejovic S., Boldy A.P., Guidelines to Hydraulic Transient Analysis of Pumping Systems, P & B Press, Belgrade - Coventry, 1992, pp. 181. <The Book published in 1992>

10.  Krsmanovic Lj., Pejovic S., Jovanovic Lj., Jovanovic M., Bosanac N., Guidelines to Design and Construction of Small Powerplants (in Serbo-Croatian), JUGEL, Beograd, 1990.

11.  Pejovic S., Guidelines to Hydraulic Transient Analysis and Measurement on Pumping Auxiliary Systems of Hydro- and Thermal Powerplants (in Serbo-Croatian), Faculty of Mechanical Engineering, Belgrade, 1990, pp. 88.

12.  Pejovic S. (Editor), Modern Technology in Hydraulic Energy Production, Proceedings from the 15th IAHR (International Association for Hydraulic Research) Symposium on Hydraulic Machinery and Cavitation, Belgrade, 1990, pp. 1500. <About Proceedings>

13.  Pejovic S., Boldy A.P., Obradovic D., Guidelines to Hydraulic Transient Analysis, Technical Press, England, 1987, pp. 144. <The Book published in 1987>

14.  Krsmanovic Lj., Pejovic S., Gajic A., Djonin K., Examination of the Mechanical Equipment in Hydro Power Plants in Order to Increase Its Operating Life (in Serbo-Croatian), Belgrade, 1985, pp. 62.

15.  Pejovic S., Krsmanovic Lj., Measurement and Analysis of Vibrations of Hydro Power Plants (in Serbo-Croatian), Masinski Fakultet, Beograd, 1984, pp. 87.

16.  Pejovic S., Guidelines to Hydraulic Transient Analysis (in Serbo-Croatian), Belgrade, 1984, pp. 119.

17.  Pejovic S., Gajic A., Problems in Turbomachines (in Serbo-Croatian), Masinski Fakultet, Beograd, 1981, pp. 202.

18.  Pejovic S., Hydraulic Vibrations of Hydraulic Systems (in Serbo-Croatian), Masinski Fakultet, Beograd, 1979, pp. 102.

19.  Pejovic S., Krsmanovic Lj., Governing of Hydropower Plant Units (Lectures of Prof. Dr. G. I. Krivcenko at the Faculty of Mechanical Engineering and T.Z. "Litostroj", Ljubljana Belgrade), (in Serbo-Croatian), Masinski Fakultet, Belgrade, 1978, pp. 78111.

20.  Pejovic S., Governing of Hydropower Plant Units (Lectures of Prof. Dr. G. I. Krivcenko at T.Z. "Litostroj", Ljubljana), (in Serbo-Croatian), Masinski Fakultet Belgrade, 1978, pp. 33.

21.  Pejovic S., Krsmanovic Lj., Gajic A., Reverse Waterhammer and Accident in Hydro Power Plant "Zvornik" (in Serbo-Croatian), Masinski Fakultet, Belgrade, 1978, pp. 90. Link

22.  Pejovic S., Krsmanovic Lj., Jemcov R., Model and Field Tests of Hydraulic Transients in Hydraulic System (in Serbo-Croatian), Masinski Fakultet, Belgrade, 1978, pp. 34.

23.  Pejovic S., Waterhammer and Transient Operations of Hydraulic Systems (in Serbo-Croatian), Masinski Fakultet, Beograd, 1977, pp. 122.

24.  Pejovic S., Hydraulic Transients and Reverse Waterhammer (in Serbo-Croatian), Masinski Fakultet, Beograd, 1977, pp. 84.

 

5.1.5     Textbooks

25.  Pejovic S., White Paper on Hydro Energy Storage, Report, Ryerson University, Faculty of Engineering, Architecture and Science, Centre for Urban Energy, Toronto, 2011.

26.  Pejovic S., Hydraulic Systems and Water Energy Storages at High Risk. Lessons to Learn, Article / Report, Ryerson University, Faculty of Engineering, Architecture and Science, Centre for Urban Energy, Toronto, 2011

27.  Pejovic S., Answers to PPE Professional Practice Examination) Questions. Written in about 15 minutes. Text corrected by Tattanjeet Lamba, 2003.

28.  Pejovic S., Answers to PPE Professional Practice Examination) Questions. Written in about 15 minutes. Text corrected by Tattanjeet Lamba, 2003

29.  Pejovic S., Answers to Questions in the Ethics Textbook “Canadian Professional Engineering Practice and Ethics, 2nd Edittion 1999.” Written in about 15 minutes. Text corrected by Tattanjeet Lamba, 2003.

30.  Pejovic S., Flow System Analysis: Hydraulic Transients and Vibrations, Lecture Notes of MSc and PhD Course at the National University of Singapore, 1994.

31.  Pejovic S., Design of Hydraulic Plants - Prof Dr Stanislav Pejovic’s Lectures (Edited by Stojanovic Z. in Serbo-Croatian; at the University of Belgrade, Faculty of Mechanical Engineering)

 

5.1.6     Key Invited Presentations

 

32.  Pejovic S., Zhang Q.,  Karney B., Gajic A., Key invited presentation, Analysis of Pump-Turbine “S” Instability and Reverse Waterhammer Incidents in Hydropower Systems, 4th International Meeting on Cavitation and Dynamic Problems in Hydraulic Machinery and Systems, Belgrade, October 26-28, 2011, Links:  Article and  Presentation

 

5.1.7     Published Presentations and Some Reports

 

33.  Professional Engineers Ontario Hydro Power and Storage Technology, Mississauga PEO Chapter, October 28, 2009. Presentation

34.  Energy Storage Technology, (Karney W.B., with Pejovic S.), PEO (Professional Engineers Ontario), 6 October 2008. Website link: http://www.mississauga.peo.on.ca/Past%20Events/Oct_06_08_ppt.pdf

35.  Ontario Power Authority Meeting, “Electric Generators Profit/Costs On-Line Management and Control.” 21 September 2005. <Text>

36.  Ontario Power Authority Meeting, Stability of Price And Power Production of Cleaner Electricity in Ontario, Supply Mix and Optimization, Best Efficiency – Free Spinning Reserve – Stability, 21 September 2005. <Karney's presentation>

37.  Ontario Power Authority Meeting, Stability of Price And Power Production of Cleaner Electricity in Ontario, Supply Mix and Optimization, Best Efficiency – Free Spinning Reserve – Stability, 21 September 2005. <Pejovic's presentation>

38.  University of Toronto, Economic and Environmental Benefits of Pumped Storage Schemes, 20 January 2005.

39.  Standing Committee on Social Policy, Legislative Assemble of Ontario: Stability of Power Production and the Huge Economic and Social Consequences of Price and Price Variation, 12 August 2004. http://www.ontla.on.ca/committee-proceedings/transcripts/files_html/2004-08-12_SP003B.htm#P447_117590
Movie:
Cane_in_Canada\Folders\Queens Park press\Legislative Video pres\Pejovic2.wmv

40.  Pejovic S, Karney W.K, Colombo A.,; Supply Mix, Written Submission, Ontario Poser Authority, Power System Planning, Supply Mix Advice - Supply Mix Advice and Recommendations, Link

41.  Pejovic S., Karney W.B, Stability of Price and Power Production of Cleaner Electricity in Ontario, Supply Mix - Best Efficiency – Free Spinning Reserve – Stability, Power System Planning, Supply Mix Advice - Supply Mix Advice and Recommendations, Link

 

5.1.8    Articles - Reviewed

42.  Pejovic S., Zhang. K.,Q., Karney, B., Gajic A., Analysis of Pump-Turbine “S” Instability and Reverse Waterhammer Incidents in Hydropower Systems, 4th International Meeting on Cavitation and Dynamic Problems in Hydraulic Machinery and Systems, Belgrade, October 26-28, 2011,

43.  Pejovic S., Gajic A., Profit Management and Control in Transient and Steady Operation of Hydroelectric Plants, No. 29-30, Serbian Scientific Society, Belgrade 2001-2002, pp. 5-20. <Profit Management NDS 2002>

44.  Pejovic S., Air Influence on Stability of Real and Theoretical Hydraulic System, Scientific Review, No. 16, Serbian Scientific Society, Belgrade 1996, pp. 23-38. <NDSrad 1996.pdf>

45.  Pejovic S., Gajic A., Hydraulic Oscillations of Low Head Powerplants (in Serbo-Croatian), Revue, Journal Gradjevinar, Zagreb, 1991, pp. 167-180.

46.  Pejovic S., Pressure Surges and Vibrations in Hydropower Plants - Experiences in Yugoslavia, The Current State of Technology in Hydraulic Machinery, International Editorial Committee Book Series on Hydraulic Machinery, Gower Technical ,1989, pp. 177-204.

47.  Pejovic S., Gajic A., Cases and Incidents Due to Hydraulic Transients - Yugoslav Experiences, International Congress on Cases and Accidents in Fluid Systems, São Paulo, Brazil, 1989, pp. 181-223.

48.  Pejovic S., Hydraulic Transients and Vibrations (in Serbo-Croatian), Round Table on Hydraulic Transients in Hydro Power Installations, Institute of Technical Sciences of Serbian Academy of Sciences and Arts, Belgrade, 1986, pp. 1-52.

49.  Pejovic S., Obradovic D., Gajic A., Some of Our Experiences in Hydraulic Oscillations and Resonances (in Serbo-Croatian), Elektroprivreda, No. 3-4, 1986, pp. 104-112.

50.  Pejovic S., Hydraulic Transients and Vibrations (in Serbo-Croatian), Yugoslav Association of Eng. and Tech., Yugoslav Association for Small Hydropower Plants, Seminar, Vrnjacka Banja, 1986, pp. 43-75.

51.  Pejovic S., Obradovic D., Gajic A., Resonance in Hydropower Plants - Experiences in Yugoslavia, IAHR Work Group on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Mexico City, 1985, 1/1-1/13. <Full text>

52.  Pejovic S., Obradovic D., Gajic A., Our Experiences in Hydraulic Oscillations and Resonances (in Serbo-Croatian), JUGEL, Perucac, 1985, pp. 18.

53.  Pejovic S., Obradovic D., Hydraulic Transients and Hydraulic Oscillations (in Serbo-Croatian), Symposium '85, Drustvo za mehaniku Srbije, Vrnjacka Banja, 1985, pp. 35-77.

54.  Pejovic S., Obradovic D., Krsmanovic Lj., Experiences in Hydraulic Transients (in Serbo-Croatian), JUGEL, Ljubljana, 1980, pp. 1-34.

 

5.1.9     Articles – Journals

 

55.  Zhang. K.,Q., Karney, B., Pejovic S., (2011).  “Non-Reflective” Boundary Design via Remote Sensing and PID Control Valve, ASCE Journal of Hydraulic Engineering, 137(11):1477-1489 · August 2011.  Link

56.  Maricic T., Karney W. B., Pejovic S., Knowledge Transfer with Intention to Improve Design While Reducing Operational Expenses, IPSI BgD Journals, July 2010, Vol. 6 No. 2 ISSN 1820 – 5411. Link to Journal

57.  Pejovic S., Kennedy C., Karney B., Maricic T., (2009), Achieving a Comprehensive and Integrated Energy System through Electricity, IPSI-2009 Belgrade. . Link to Journal.

58.  Pejovic S., Understanding the Effects of Draft Tube Vortex Core Resonance, Hydro Review Worldwide, HCI Publications, September 2000, p. 28-33.

59.  Pejovic S., Filling of Vehicles with Compressed Natural Gas, (In Serbian, Abstract in English), Gas I, No. 2, 1996, pp. 13-16.

60.  Lee T. S., Pejovic S., Air Influence on Similarity of Hydraulic Transients and Vibrations, Transaction of the ASME, Journal of Fluids Engineering, Vol. 118, December 1996, pp. 706-709.

61.  Gajic A., Pejovic S., Krsmanovic Lj., Stojanovic, Z., Methods of Presentation of Characteristics of Hydraulic Machines (in Serbian), Elektroprivreda, No. 2, 1996, pp. 55-62.

62.  Stojanovic, Z., Gajic A., Pejovic S., Hydraulic Oscillations of One-Phase Systems - Fluid-Structure Interaction Model, (in Serbian Abstract in English), Journal "Termotehnika", 1 - 2. Belgrade, 1995, pp. 93-101

63.  Pejovic S., Hydraulic Transients and Economy of Pumping Systems, Mechanical Engineer, ASME Singapore Chapter, 1994, pp. 112-118.

64.  Pejovic S., Cavitation in Pumps and Pressure Surges in Pumping Systems (Invited Lecture in Serbo-Croatian), Journal Water and Water Treatment 20(5-6)3-10(1990), Beograd, 1991, UDK 621.65/.67, Scientific Work, pp. 10

65.  Pejovic S., Gajic A., Hydraulic Oscillations of Low Head Powerplants (in Serbo-Croatian), Revue, Journal Gradjevinar, Zagreb, 1991, p 167-180.

66.  Pejovic S., Obradovic D., Gajic A., Some of our Experiences in Hydraulic Oscillations and Resonances (in Serbo-Croatian), Elektroprivreda, No. 3-4, 1986, pp. 104-112.

67.  Gajic A., Pejovic S., Obradovic D., Hydrodynamic Loads in Hydraulic Parts of Power Plants during Earthquake (in Serbo-Croatian), Elektroprivreda, No. 9-10, 1986, pp. 362-366.

68.  Pejovic S., Obradovic D., Gajic A., Hydraulic Transients in Pumped Storage Power Plant "Bajina Basta" - Mathematical Modeling Confirmed by Field Tests (in Serbo-Croatian), Elektroprivreda 1-2, 1985, pp. 21-24. <See also>

69.  Krsmanovic Lj., Pejovic S., Construction of Small Hydro-Power Plants (in Serbo-Croatian), Tehnika, Masinstvo 33, 1984, pp. 354-356. <Full text>

70.  Pejovic S., Krsmanovic Lj., Gajic A., Obradovic D., Kaplan Turbine Incidents and Reverse Waterhammer, Water Power and Dam Construction, 1980, pp. 36-40<Woter Power 1980>.

71.  Pejovic S., Krsmanovic Lj., Gajic A., Obradovic D., Kaplan Turbine Incidents and Reverse Waterhammer, ( in Serbo-Croatian), Elektroprivreda, 1980, pp. 359-365.

72.  Krsmanovic Lj., Pejovic S., Air Chamber and Nonreturne Valve in Pumping Stations (in Serbo-Croatian), Tehnika, Masinstvo, Belgrade, 1977, pp. 1407-1413.

73.  Pejovic S., Crnkovic P., Pumped-Storage Power Plant "Bajina Basta" - Pump-Turbines for High Heads (in Serbo-Croatian), Elektroprivreda, Belgrade, 1973, pp. 262-272. <See also>

74.  Krsmanovic Lj., Pejovic S., Simonovic V., Determination of Pressure Tank Volume (in Serbo-Croatian), Tehnika, Masinstvo, 1969, pp. 235-238. <Full text>

75.  Pejovic S., Lenck A. H., Verfahren zur Berechnung einer raümlichen, nicht-rotationssymmetrischen Strömung in Turbomaschinen, Konstruktion, 20 (1968), Heft 11, pp. 450-453. <Full text>

76.  Pejovic S., Simonovic V., Contribution to the Theory of Axisymmetric Flow Through Turbomachines, (in Serbo-Croatian, summary in English) Matematicki vesnik, 6 (21), Sv. 3, 1969, pp. 323-330. <Full text>

77.  Pejovic S., Über die Strömung durch Turbomaschinen mit Potential im Meridianschnitt, Forschung im Ingenieurwesen, 34 (1968), Nr. 3, pp. 78-80. <Full text>

78.  Pejovic S., Beitrag zur Berechnung der Strömung in Turbo-Maschinen, Konstruktion, 19 (1967), Heft 9, pp. 358-360. <Full text>

79.  Pejovic S., Equations of the Stream Field and the Blade Surfaces of Radial Pumps, Matematicki vesnik 4 (19), Sv. 2, 1967, pp. 113-118. <Full text>

80.  Pejovic S., Axially Symmetric Flow Through Turbomachines - The Equation of Blade Surfaces (in Serbo-Croatian), Matematicki vesnik 4 (19), Sv. 1, 1967, pp. 39-46 <Full Text>

81.  Pejovic S., Investigation of the Axially Symmetric Flow of a Frictionless Fluid through Turbomachines, Matematicki vesnik 2 (17), Sv. 3, 1965, pp. 199-201 <Full text>.

82.  Pejovic S., The Equation of Blades of Axial Turbomachines for Free-Vortex Flow, Matematicki vesnik 2 (17), Br. 1. 1965, pp. 49-58. <Full text>

83.  Pejovic S., The Shape of the Hub Diameter and Outside Diameter of the Axial Flow Compressors (in Serbo-Croatian), Tehnika, Masinstvo, 1961, pp. 249-251. <Full text>

84.  Pejovic S., The Shape of the Flat Pipeline of the Smallest Weight (in Serbo-Croatian), Tehnika, Masinstvo, 1960, pp. 226-227.

85.  Pejovic S., An Approximate method of Calculating Three- dimensional Compressible Flow in Turbomachines (in Serbo-Croatian), Zbornik Masinskog Fakulteta, Belgrade, 1959-60, pp. 8.1 - 8. <Full text>

 

 

5.1.10            Conferences

 

86.  Pejovic, S.,  Zhang. K.,Q., Karney, B., Gajic A.,  Design Challenges in Hydropower Systems: Trade-offs and Difficulties in Operation, Uploaded on ResearchGate, 2016. Unpublished but submitted: 2nd International Conference on Electric Technology and Civil Engineering (ICETCE 2012), At Hubei, China. Reason lack of funding.

87.  Bergant, A., Karney, B., Pejović, S., Mazij, A, J., Treatise on water hammer in hydropower standards and guidelines, IAHR Symposium, Montreal, Canada, 2014

88.  Pejović, S.,  Karney, B., Guidelines for transients are in need of revision, IAHR Symposium, Montreal, Canada, 2014

89.  Pejovic, S., Gajic A., Zhang, Q.,  Smart design requires updated design and analysis guidelines, IAHR Symposium, Montreal, Canada, 2014

90.  Pejovic’ S., Gajic A., Karney W. B., Bergant A., Pumped and Hydro Storage Reduce Electricity Costs, Clean Environment and Keep Wind and Solar Unpolluted, Think-Hydro, Resita, Romania, November 13-15, 2013

91.  Pejovic S., High Head Pump Turbine “S” Instability Huge Risk for Draft Tube Water Column Separation, HydroVision, Charlotte, US, 2010

92.  Pejovic S., Karney B., Maricic T., Smart Grids Better with Integrated Energy System, IEEE Trans. CD, 2009.

93.  Maricic T., Haber D., Pejovic S., Niagara Pump Generating Station Proven Functionality Unique in Canada, IEEE Trans. CD, 2009. Link

94.  Maricic T., Karney W. B., Pejovic S., Essential Role of Technical Review in Hydro-Designs, IEEE Trans. CD, 2009.

95.  Maricic T., Karney W. B., Pejovic S., Knowledge Transfer with Intention to Improve Design While Reducing Operational Expenses, VIPSI-2009, Belgrade.

96.  Pejovic S., Kennedy C., Karney B., Maricic T., (2009), Achieving a Comprehensive and Integrated Energy System through Electricity, VIPSI-2009 Belgrade.

97.  Karney, B., Q. Zhang, S. Pejovic (2008).  “Non-reflective boundary design through remote sensing and PID control valve.” Surge Analysis – System Design, Simulation, Monitoring and Control. 10th International Conference on Pressure Surges, Edinburgh, U.K., May, 243-256.

98.  Pejovic S, Karney B.W., Zhang Q., Kumar G., Smaller Hydro, Higher Risk, IEEE Trans CD, 2007. Link

99.  Maricic T., Haber D., Pejovic S., Standardization as Prevention of Fatigue Cracking of Hydraulic Turbine-Generator Shaft, IEEE Trans. CD, 2007. Link

100.          Karney B., Pejovic S., Colombo A., University of Toronto (UofT) - Supply Mix Submission – (Ontario Power Authority) (OPA), August 18, 2005.

101.          Pejović-Milić A., Pejović S, Karney B., Pulsatile Flow Loads in Coronary Bypass, Abstracts, Minisymposium Integrity of Dynamical Systems, Fourth World Congress of Nonlinear Analysts WCNA-2004, Rolando, Florida USA

102.          Pejović-Milić A., Pejović S., Karney B., Pulsatile Flow Loads in Coronary Bypass, Preliminary Program of Minisymposium Integrity of dynamical systems, Orlando, Florida USA, 2004.

103.          Pejovic S., Karney B., Zhang Q., Water Column Separation in Long Tailrace Tunnel, HYDROTURBO, Brno 2004

104.          Kiani A., Brekke H., Leyland B., Jacob T., Pejovic S., ASME,  Transient problems upon load rejection Masjed-e Soleyman case study, HYDRO 2004, Porto, Portugal.

105.          Karney B., Gajic A., Pejovic S., Case Studies – Our Experience in Hydraulic Transients and Vibrations, Proceedings of the International Conference on CSHS03, Belgrade, 2003.

106.          Pejović-Milić A., Pejović S, Karney B., Extreme Theoretical Pressure Oscillations in Coronary Bypass, Proceedings of the International Conference on CSHS03, Belgrade, 2003.

107.          Pejovic S, Ljubisav Krsmanovic, Ph.D., Prof. Emeritus - 80 years of life, Proceedings of the International Conference on CSHS03, Belgrade, 2003

108.          Gajic A., Pejovic S., Ivljanin B., Reverse Waterhammer - Case Studies, Proceedings of the International Conference on CSHS03, Belgrade, 2003

109.          Pejovic S., Troubleshooting of turbine vortex core resonance and air introduction into THE draft tube, IAHR Symposium, Lausanne, Switzerland, 2002Pejovic S., Profit Management and Control of Hydropower and Pump Plants, Proceeding of the International Joint Power Generation Conference, Denver, Colorado, 1997, pp. 539-545.

110.          Pejovic S., Profit On-Line Management and Control of Hydroplants, IAHR Work Group on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Chatou, France, 1997, Paper G2, pp. 10. 

111.          Pejovic S., Saving Energy while Designing and Operating Hydraulic Plants, Proceedings: Rationalization of Consumer Energy Demand, Belgrade, 1997, pp. 187-193.

112.          Gajic A., Pejovic S., Krsmanovic Lj. ,Licanin S., Oscillations of Collapsible Tubes (in Serbian), 11th Symposium of Yugoslav Association for Hydraulic Research, Vrnjacka Banja, 1997, Proceedings B: Fluid Mechanics pp. 37-42.

113.          Pejovic S., Lee T. S., Similarity of Transient and Oscillatory Flow of Real Fluid (in Serbian, Summery in English), Proceedings of the Scientific Meeting on Mechanics, Materials, and Constructions, Serbian academy of Sciences and Arts Belgrade 1996, pp. 247-258.

114.          Gajic A., Pejovic S., Reverse Waterhammer in HPP with Kaplan Turbines, (in Serbian, Summery in English), Proceedings of the Scientific Meeting on Mechanics, Materials, and Constructions, Serbian Academy of Sciences and Arts Belgrade 1996, pp. 603-610.

115.          Gajic A., Pejovic S., Krsmanovic Lj., Stojanovic Z., Modeling of Hydraulic Turbine Characteristics for Transient Analyses, II International Symposium Contemporary Problems of Fluid Mechanics, Belgrade, 1996, pp. 205-209.

116.          Pejovic S., On-Line Profit Control, Governing and Protection of Hydropowerplant Units, International Conference on Technical Systems and Fire, Explosions, Damages and Burglary Protective Means, Preving Dunav, Belgrade, 1996, pp. 121-125.

117.          Gajic A., Pejovic S., Krsmanovic Lj., Stojanovic Z., Transient Analysis and Dynamic Criteria for HPP Exploitation, 18th IAHR Symposium, Valencia, Spain, 1996, pp. 691- 701.

118.          Gajic A., Pejovic S., Stojanovic Z., Hydraulic Oscillation Analysis Using the Fluid-Structure Interaction Model, 18th IAHR Symposium, Valencia, Spain, 1996, pp. 845-855.

119.          Pejovic S., Gajic A., Extreme Theoretical Pressure Oscillations in a Simple Powerplant, Pressure Surges and Fluid Transients, BHR Group, 1996, pp. 477-484.

120.          Pejovic S., Gajic A., Stojanovic Z., Hydraulic Transients and Economy of Pumping Systems (in Serbian), Drustvo za mehaniku Srbije, Nis, 1995, pp. 311-317.

121.          Pejovic S., Lee T. S., Similarity of Unsteady and Oscillatory Flow of Real Fluid, Proceedings of Abstracts (In Serbian) of Scientific Meeting "Mechanics, Materials, Structures", Serbian Academy of Sciences and Arts, Belgrade, 1995 pp. 67-68.

122.          Gajic A., Pejovic S., Reverse Waterhammer in Hydropowerplants with Kaplan Turbines, Proceedings of Abstracts (In Serbian) of Scientific Meeting "Mechanics, Materials, Structures", Serbian Academy of Sciences and Arts, Belgrade, 1995 pp. 137.

123.          Gajic A., Pejovic S., Stojanovic, Z., Kratica, J., Fluid Structure Interaction in Frequency Domain, IAHR Work Group. on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Ljubljana, Slovenia, 1995, Paper F5, pp. 13

124.          Stojanovic, Z., Gajic A., Pejovic S., Hydraulic Oscillation of One-Phase Flow - Fluid Structure Interaction. Proceedings "Termohidraulicki procesi u energetici, "Termohidraulika '94", Belgrade, 1994, pp. E.2.1-2.9.

125.          Pejovic S., Gajic A., Savic Z., Stojanovic Z., Hydraulic Stability of Bulb Turbines, 17th IAHR Symposium, Beijing 1994, paper J2, pp. 1195-1206.

126.          Stojanovic, Z., Gajic A., Pejovic S., Oscillatory Behaviour of Fluid and Structure (in Serbian), 11th Symposium of Yugoslav Association for Hydraulic Research, Belgrade, 1994, pp. 272-277.

127.          Gajic A., Pejovic S., Stojanovic Z., Hydraulic Oscillations Stability of Low-Head Hydropower Plants, IAHR Work Group. on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Lausanne, Switzerland, 1993, Paper 6-3, pp. 14

128.          Pejovic S., Dunn A., Lai C. K., Machine Influence Stability and Response to Hydraulic Oscillations, IAHR Work Group. on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Lausanne, Switzerland, 1993, Paper 6-5, pp. 14.

129.          Pejovic S., Gajic A., Sensitivity and Stability Analysis of Pumping Systems and Air Chamber Influence on Hydraulic Vibrations, International Conference on Unsteady Flow and Fluid Transients, Durham, England, 1992, Balkema - Rotterdam, pp. 229-239.

130.          Gajic A., Pejovic S., Arnautovic D., Ignjatovic B., Reverse Waterhammer Analysis in Kaplan Turbines, IAHR Symposium, São Paulo, Brazil, 1992, pp. 161-171.

131.          Pejovic S., Gajic A., Economy of Hydropowerplant Operation under Steady Oscillatory Conditions, IAHR Symposium, São Paulo, Brazil, 1992, pp. 53-62.

132.          Pejovic S., Gajic A., Stojanovic Z., Stability Analysis of Hydraulic Systems and Air Chamber influence on Hydraulic Vibrations (in Serbian), Symposium - Savremeni problemi mehanike fluida, Masinski fakultet Beograd, 1992, pp. 314-322.

133.          Pejovic S., Vukosavic D., Vibrations and Economy of Hydropowerplant Operation, IAHR Work Group on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Milano, 1991, Paper 1, pp. 11.

134.          Pejovic S., Hydraulic Vibration and Stability of Hydropowerplant, International Power Generation Conference, San Diego, 1991, American Society of Mechanical Engineers, Paper 91-JPGC-Pwg-28, pp. 7.

135.          Pejovic S., Vukosavic D., Optimal Use of Hydro Power Plants (In Serbo-Croatian) XVII Meeting of Power Engineers of Serbia, Budva, 1991, pp. 226-236.

136.          Sekulic M., Pejovic S., Mrkic M., Nikcevic J., Problems of Vibrations in Hydraulic Servosystems Maintenance, Pneu-Hydro 90, Miskolc, Hungary, 1990, pp. 266-271.

137.          Gajic A., Pejovic S., Krsmanovic Lj., Kovacina N., Macanovic J., Marjanovic M., Hydraulic Oscillations of Low Head Powerplants (in Serbo-Croatian), 10th Symposium of Yugoslav Association for Hydraulic Research, Sarajevo, 1990 pp. 193-206.

138.          Pejovic S., Air Influence on Waterhammer and Vibrations (in Serbo-Croatian), 10th Symposium of Yugoslav Association for Hydraulic Research, Sarajevo, 1990 pp. 336-346.

139.          Gajic a., Predic Z., Muskatirovic J., Pejovic S., Manzalovic P., Investigation of Cracks on the Kaplan Turbine Stay Vanes, IAHR Symposium, Belgrade, 1990, pp. A4 1-12.

140.          Pejovic S., Some Guidelines to Hydraulic Vibration and Stability Analysis, IAHR Symposium, Belgrade, 1990, pp. T6 1-11.

141.          Pejovic S., Cavitation in Pumps and Pressure Surges in Pumping Systems (Invited Lecture in Serbo-Croatian), Association for Water Treatment, Belgrade, 1990, pp. 33-52.

142.          Pejovic S., Similarity in Hydraulic Vibrations of Power Plants, Joint ASCE/ASME Mechanics, Fluids Engineering, and Biomechanics Conference, San Diego, USA 1989, American Society of Mechanical Engineers, Paper 89-FE-4, pp. 5.

143.          Krsmanovic Lj., Gajic A., Pejovic S., Optimum Use of the Hydro System "Djerdap I" and "Djerdap II", International Symposium on Large Hydraulic Machinery and Associated Equipment, Beijing, China, 1989 pp. 662-677.

144.          Pejovic S., Similarity of Hydraulic Transients, 6th International Conference on Pressure Surges, Cambridge, 1989, pp. 221-232.

145.          Obradovic D., Arnautovic D., Pejovic S., Gajic A., Mathematical Modeling of Transient Regimes in Multi-Unit Hydro Power Plants, IAHR Symposium, Trondheim, 1988, pp. 163-176.

146.          Gajic. A., Pejovic S., Macanovic J., Kovacina N., Overhaul on Vibrations of Powerplant "Bocac", Technical Meeting on Hydro Powerplants and Pump Storage Powerplants, Opatija, 1988. <see also>

147.          Pejovic S., Hydraulic Resonance in the Pipeline Throttled by the Valve (in Serbo-Croatian), XVIII Yugoslav Congress of Rational and Applied Mechanic, Vrnjacka Banja, 1988 pp. 4.

148.          Gajic A., Pejovic S., Obradovic D., Predic. Z., Hydraulic Transients in the Low-Head Water Distribution Tunnel, Turboinstitut Conference on Hydraulic Machinery, Ljubljana, 1988, pp. 491-499.

149.          Pejovic S., Gajic A., Obradovic D., Auto-Oscillation of the Intake Wheel Gate, IAHR Symposium, Trondheim, 1988, pp. 443-450.

150.          Gajic A., Krsmanovic Lj., Pejovic S., Effects of Axial Clearance Between Semi-Open Impeller and Casing on the Pump Performances, Proceedings on the Eight Conference on Fluid Machinery, Budapest, 1987, pp. 269-277.  <Full text>

151.          Pejovic S., Two Methods for the Analysis of Steady-Oscillatory Flows and Their Comparison, IAHR Work Group on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Lille, 1987, pp. 1.1-1.13. <Full text>

152.          Gajic A., Pejovic S., Obradovic D., Hydraulic Loads in Hydraulic Systems during an Earthquake (in Serbo-Croatian), XVII Yugoslav Congress of Rational and Applied Mechanic, Zadar, 1986, Vol. 2, pp.

153.          Pejovic S., Gajic A., Auto-Oscillations of the Ball Valve and Mode Shape in the Tunnel, UNIPEDE Attelier, Dubrovnik, 1986, pp. 17.

154.          Pejovic S., Macanovic J., Gajic A., Kovacina N., Some Vibrations of the Civil Construction (in Serbo-Croatian), Yug. Congress for High Dams, Mostar, 1986, pp. 1-25.

155.          Pejovic S., Gajic A., Auto-Oscillations of the Ball Valve (Mode Shape) (in Russian), Int. Conf. Hydroturbo, Varna, 1986, pp. 1-12.

156.          Obradovic D., Pejovic S., Gajic A., Analysis of Earthquake Effects upon Hydraulic Structures, 5th International Conference on Pressure Surges, Hannover, 1986, pp. 35-41.  <Full text>

157.          Pejovic S., Obradovic D., Gajic A., Field Tests and Calculations of the Effects of Air Introduction into the Draft Tube upon Hydraulic Oscillations in Hydropower Plant, IAHR Symposium, Montreal, 1986, pp. 9/1-9/12. <Full text>

158.          Pejovic S., Obradovic D., Gajic A., Hydraulic Transients in a Power Plant - Mathematical Modeling Confirmed by Field Tests, Hydrosoft 84, Portoroz, 1984, pp. 5.57-5.67.

159.          Gajic A., Pejovic S., Mathematical Methods in Hydraulic Oscillations (in Serbo-Croatian), XXI Yugoslav Congress of Rational and Applied Mechanics, Becici, 1984, pp. 211-219.

160.          Pejovic S., Krsmanovic Lj., Gajic A., Maintenance and Measuring of Vibrations (in Serbo-Croatian), XIV Meeting of Power Engineers of Serbia, Budva, 1984, Vol. 2, pp. 121-128.

161.          Krsmanovic Lj., Pejovic S., About the Methods for Optimization of Electrical Power System (in Serbo-Croatian), XIV Meeting of Power Engineers of Serbia, Budva, 1984, Vol. 2, pp. 129-140.

162.          Pejovic S., Gajic A., Obradovic D., The Effects of Air Supply to the Draft Tube upon Hydraulic Oscillations in a Hydropower Plant, IAHR Symposium, Stirling, 1984, pp. 242-253. <Full text>

163.          Pejovic S., Gajic A., Obradovic D., Calculations of Hydraulic Oscillations, Turboinstitut, Ljubljana, 1984, pp. 750-765. <Full text>

164.          Obradovic D., Pejovic S., Gajic A., Water-Column Separation in Pump Drinking Water Discharge Lines (in Serbo-Croatian), Savetovanje "Istrazivanje, izgradnja i eksploatacija u sistemima vodovoda i kanalizacije", Sarajevo, 1984, pp. 133-154.

165.          Pejovic S., Gajic A., Obradovic D., Forms of Pump-Turbine Characteristics in Water Hammer Calculation, The Winter Annual Meeting of ASME, Boston, 1983, pp. 15-21. <Full text>

166.          Pejovic S., Gajic A., Obradovic D., The Influence of Turbomachine Characteristics on Hydraulic Oscillations in Pipeline System, 4th International Conference on Pressure Surges, Bath, 1983, pp. 393-404.

167.          Pejovic S., Krsmanovic Lj., Gajic A., Obradovic D., Resonance in the Piping System of a Power Plant During Filling-in, IAHR Symposium, Amsterdam, 1982, pp. 43; 1-10.

168.          Pejovic S. Stojanovic A., Daskalovic Lj., Maintenance of Hydro Power Plants Units (in Serbo-Croatian), Savez energeticara Srbije, Porec, 1981, pp. 17-31.

169.          Pejovic S., Obradovic D., Gajic A., Hydraulic Transients and Security of Hydro Power Plants (in Serbo-Croatian), Savez energeticara Srbije, Porec, 1981, pp. 33-50.

170.          Pejovic S., Krsmanovic Lj., Gajic A., Obradovic D., Kaplan Turbine Incidents and Methods of Reverse Waterhammer Calculations (in Serbo-Croatian), JUGEL, Mostar, 1981, pp. 67-85.

171.          Pejovic S., Krsmanovic Lj., Gajic A., Coincidence of Penstock Gate and Turbine Guide Vane Closure (in Serbo-Croatian), JUGEL, Mostar, 1981, pp. 107-115.

172.          Jemcov R., Krsmanovic Lj., Pejovic S., Excitations of Vibrations in Pumped Storage Power Plant "Capljina" (in Serbo-Croatian), JUGEL, Ljubljana, 1980, pp. 443-459. <See also>

173.          Pejovic S., Gajic A., Obradovic D., Hydraulic Vibrations in Pumped Storage Power Plant "Capljina" (in Serbo-Croatian), JUGEL, Ljubljana, 1980, pp. 461-482. <see also>

174.          Pejovic S., Krsmanovic Lj., Gajic A., Obradovic D., Kaplan turbine Accidents and Reverse Water Hammer, Third International Conference on Pressure Surges, Canterbury, 1980, pp. 391-399.  <Full text>

175.          Pejovic S., Gajic A., Obradovic D., Reverse Water Hammer in Kaplan Turbines, IAHR Symposium, Tokyo, 1980, pp. 489-499.  <Full text>

176.          Gajic A., Pejovic S., Waterhammer and Hydraulic Vibrations (in Serbo-Croatian), JUGEL, Ljubljana, 1980, pp. 59-70.

177.          Krsmanovic Lj., Pejovic S., Possibilities of Hydraulic Transient Analysis on the Model and in Situ (in Serbo-Croatian), JUGEL, Ljubljana, 1980, pp. 121-127.

178.          Pejovic S., Krsmanovic Lj., Gajic A., Obradovic D., Kaplan Turbine Incidents and Reverse Waterhammer (in Serbo-Croatian), JUGEL, Ljubljana, 1980, pp. 323-337.

179.          Pejovic S., Hydraulic Vibrations of Hydraulic Schemes (in Serbo-Croatian), JUGEL, Ljubljana, 1980, pp. 429-441.

180.          Pejovic S., Krsmanovic Lj., Gajic A., Some Methods of Reverse Waterhammer Calculations (in Serbo-Croatian), JUGEL, Ljubljana, 1980, pp. 3-14.

181.          Pejovic S., Jemcov R., Krsmanovic Lj., Gajic A., Resonance in Hydraulic Complex System (in Serbo-Croatian), Jugoslovenski kongres racionalne i primenjene mehanike, Jugoslovensko drustvo za mehaniku, 1978, pp. 215-222.

182.          Pejovic .S., Krsmanovic Lj., Jemcov R., Transient Operations of Bulb Turbines (in Serbo-Croatian), Zajednica jugoslovenske elektroprivrede, Nova Gorica, 1977, pp. 6/1-6/11.

183.          Jemcov R., Gajic A., Pejovic S., Transient Operations and Cavitation in Bulb Turbines (in Serbo-Croatian), Zajednica jugoslovenske elektroprivrede, Nova Gorica, 1977, pp. 7/1-7/12.

184.          Pejovic S., Krsmanovic Lj., Transient Operations and Water-Hammer in a Pipeline (in Serbo-Croatian), Zajednica jugoslovenske elektroprivrede, Vlasinsko jezero, 1976, pp. 13.

185.          Krsmanovic Lj., Pejovic S., Jemcov R., Economy of Units Operation in Reversible Pump-Storage Power Plants, Hydro - Turbo 76, Brno, 1976, pp. 13.  <Full text>

186.          Krsmanovic Lj., Pejovic S., Optimal Diameter of a Penstock (in Serbo-Croatian), Zajednica jugoslovenske elektroprivrede, Vlasinsko jezero, 1976, pp. 5.

187.          Pejovic S., Krsmanovic Lj., Jemcov R., Crnkovic P., Unstable Operation of High-Head Reversible Pump-Turbines, IAHR 8th Symposium, Leningrad, 1976, pp. 238-295. <IAHR 1976 Leningrad S form characteristics.pdf>

188.          Krsmanovic Lj., Pejovic S., Jemcov R., Selection to the Type of Unit in High-Head Pump-Turbine Power Plants, Proceeding of the Fifth Conference on Fluid Machinery, Budapest, 1975, pp. 537-544.

189.           Pejovic S., Krsmanovic Lj., Djonin K., Water Hammer in Complex Pressure Systems (in Serbo-Croatian), Zbornik radova VI savetovanja Jugoslovenskog drustva za hidraulicka istrazivanja, Belgrade, 1975, pp. 38-43.

190.          Pejovic S., Krsmanovic Lj., Djonin K., Air Chambers of Optimal Dimensions (in Serbo-Croatian), Naucno-strucni skup Masinstvo 1873-1973, Knjiga 1, Masinski Fakultet, Belgrade, 1973, pp. G15-G19.

191.          Krsmanovic Lj., Pejovic S., Waterhammer in the System of Nuclear Reactor, Proceedings of the Fourth Conference on Fluid Mechanics and Fluid Machinery, Budapest, 1972, pp. 705-718.  <Full text>

192.          Vuskovic I., Pejovic S., Pump Turbine Transient Operations and Waterhammer in Pumped-Storage Hydroelectric Power Plants (in Serbo-Croatian), Zajednica jugoslovenske elektroprivrede, Maribor, 1971, pp. 52.  <Full text>

193.          Pejovic S., Grozdanic S., Waterhammer in Installations with Several Pumps, Proceedings of the Third Conference on Fluid Mechanics and Fluid Machinery, Budapest, 1969, pp. 462-468.  <Full Text>

194.          Pejovic S., Simonovic V., Contribution to Axisymmetric Flow through Turbomachines, ZAMM, Sonderheft (GAMM-Tagung), Band 48, 1968, pp. 225-227. <Full text>

 

5.1.11  Internet

195.          Pejovic S. with Maricic T., Hydro Power and Storage Technology,  2009 .http://www.stanpejovic.com/Hydro-Power-and-Storage-Technology-S-Pejovic-with-T

196.          Pejovic S., Samadzadeh B., Kriis R., Masjed-e-Soleyman-STABILITY-ANALYSIS, Hydro Quebec International / RSW International, 1998, http://www.docstoc.com/docs/20116111/Masjed-e-Soleyman-STABILITY-ANALYSIS

197.          Dunn A., Pejovic S. Lai C. K. (Investigators): Dynamic response of a variable speed pumping system. University of Hong Kong. 1993.

 

5.1.13                   Other Non-Refereed Publications and Reports 

 

198.          Hydro Projects: Lessons to Learn! and Hydroelectric Plants Current Issues, PC Party Convention, Ottawa, 2010. Links: HydroProjectsOttawa.pdf and FlyerHyroProj_PejovicS.pdf

199.    Pejovic, S., Kondratas and Karney, B., (2004). “Energy plan going forward: comments and reflections.” Invited comment to Power Advisory Board (Ontario), 18 pp.

200.          1. Pejovic S., Masjed-E-Soleyman Water column separation and rejoining. An approximate analysis of water column separation, Hydro Québec International, RSW International, Teheran, Report, 1998.

201.          2. Pejovic S., Mesjad-E-Soleyman Analysis of Draft Tube Flap Gate, Hydro Québec International, RSW International, Teheran, Report, 1998.

202.          3. Pejovic S., Samadzadeh B., Supervized by Khris R., 1998, Masjed e Soleyman

203.          Pejovic S., in cooperation with Electronic Design, Hydropowerplant Profit On-Line Management and Control, 1996, pp. 4. <Click here for more information>

204.          Pejovic S., Recommendation for two new units at Iron Gate 2 (Misljenje o nova dva agregara HE Djerdap II), letter to Electric Power Industry of Serbia, R Nikolic, general Manager, January 9, 1992. Djerdap _2_Mislenje.pdf

205.          Mehmedović, Muharem; Horvat, Branko; Delač, Marina; Stojsavljević, Milan; Tonković, Zdenko; Stanković, Đuro; Pejović, Stanislav; Gajić, Aleksandar; Obradović, Dušan; Babić, Srđan; Tešnjak, Sejid, Mogućnosti rada HE Podsused u izvanrednim uvjetima pogona, 1988. (studija).

206.          Ovcar Banja hydro electric plant accident, report, November 2 1971, Serbia (former Yugoslavia). Ovcar Banja havarija.pdf

 

 

 Back to new website; http://stanpejovic.com/

 

 

6          Projects

 

6.1.1          Hydroelectric, Pumped Storage, Pump, and Storage Plants

 

1.    St. Lawrence Seaway Lock 4 Hydro Power Plant, Ontario, Canada.

2.    Big Hanaford Combined Cycle Plant, Water Cooling System, Stone &Webster Canada L.P.

3.    Hydroelectric Plant Andrews 3, Great Lakes Power Ltd., Canada (26 MW): Transient analysis (Waterhammer, hydraulic vibrations, cavitation) for new Francis turbine runner (22.5 MW) with ~ 15% increase of power and discharge.

4.    Richard B. Russell Pump Storage Plant troubleshooting. Bid with Field System Machining Inc., South Elgin, IL USA was not accepted, 2004.

5.     Peristaltic pumps in sampling stations – Review and troubleshooting of flow measurements in sampling stations in operation. Site review and review of calibration reports. Nuclear Waste Storage, Bruce, Ontario, Canada

6.    Pumped Storage Power Station Bajina Basta (2X300 MW), Serbia, Yugoslavia.

7.    "Bistrica" Pump-Storage Power Plant, Yugoslavia.

8.    Hydroelectric Plant Jajce 1, New Runner and Increese of Power Output.

9.    Feasibility study, Hydroelectric Plants on the River Vlasina, projects, model tests, commissioning, trial operation and field tests, Serbia, Yugoslavia.

10.  Project, Hydroelectric Plants on the River Vlasina. Serbia, Yugoslavia.

11.  Pumped Storage Power Plant Capljina (2X250 MW) Bosnia and Herzegovina, Yugoslavia. 

12.  Water Cooling System of Thermal Power Plant "Nikola Tesla" (2800 MW). Waterhammer calculations and design layout, Serbia, Yugoslavia.

13.  "Wadi Caam" Pumping Station, Zambia.

14.  Pumped Storage Plant Lisina (2x13 MW). Design, performance and waterhammer tests. Serbia, Yugoslavia.

15.  "Budva" Drinking Water System (Head 2x300 m, dissipation head 800 m, discharge 100 l/s). Design, Montenegro, Yugoslavia

16.  Belgrade Water Supply (drinking water) Main Suction Tunnel (2,5 m3/s). Site tests. Serbia, Yugoslavia.

 

6.1.2         Pumps and Ventilators Design

 

17.  Design of the High Specific Speed Pump for the Company "Jastrebac", Nis, Yugoslavia.

18.  An Analysis of the Pumps production Program with a Proposal of Extension and Reconstruction of Pump Factory "Jastrebac", Nis, Yugoslavia.

19.  A Pump Production Program for the Enterprise "Minel", Belgrade, Yugoslavia.

20.  TRZ Hadzici - Design of Special Fans, Yugoslavia.

21.  "Minel" Company. Design of Centrifugal Fans, Belgrade, Yugoslavia.

 

6.1.3       Test Rigs

 

22.  TRZ Hadzici - Design of Special Fans, Yugoslavia.

23.  "Minel" Company. Design of Centrifugal Fans, Belgrade, Yugoslavia.

24.  Pelton turbine model tests stand at the University of Toronto updated for the students’ course: CIV1099 Design of Hydro and Wind Electric Plants (the only course in North America at that time 2009) .

25.  Design of Test Rigs for Pumps and Calibration of the System for Discharge Measurement, made for Belgrade Water Supply and Sewerage System, Yugoslavia.

26.  Design of Installations for Pneumatic Elements Testing for "Prva Petoljetka" Company, Trstenik, Yugoslavia.

27.  Analysis of Pressure Fluctuation and Losses in the Test Rig for Turbine Model tests, Resitu, Romania; designed by VOEST, Austria.

 

 Back to new website; http://stanpejovic.com/

 

7          Reports

 

1.      Bid for Pump Intake Structure, Darlington Nuclear Generating Station, Ontario Power Generation.

2.      Review Water Cooling System, PPN (Pillaiperumalnallur) Combined Cycle Power Plant, India.

3.      Peristaltic pumps in sampling stations – troubleshooting, Ontario Power Generation

4.      Nuclear waste aging management, Bruce, Ontario Power Generation, Canada.

5.      Monitoring of Radioactivity in Effluent and Environment: Flow and sampling measurement. Ontario Power Generation, Canada.

6.      Selection of the Pumps and Evaluation of the Offer for the Pumping Station "Vracar II" of the Belgrade Water Supply and Sewerage System (in collaboration with Lj. Krsmanovic and A. Gajic), Yugoslavia.

7.      Hydraulic Transients in Cooling System of the Thermal Power Plant Nikola “Tesla” Obrenovac, Yugoslavia.

8.      Analysis of Water Hammer in the Pumping Station System "Debeli Lug", Copper Mines in Majdanpek, Yugoslavia.

9.      Berechnung der Druckschwingungen und des Druckverlustes im Kreislauf des Turbinen Prüfstandes "Resitu", Romania, carried out for VOEST, Austria (in collaboration with Prof. I. Vuskovic, PhD).

10.   Design of Water Hammer Protection for the Pumping Station of Chemical Plant in Pancevo, Yugoslavia.

11.   Analysis of Water Hammer in the Pumping System Pancevo, Water-Works, Yugoslavia.

12.   Analysis of Water Hammer in the Water Supply System of Bitolj, Yugoslavia.

13.   Study of Water Hammer in the Pumping Station System "Pustinjac I and II" of the Majdanpek Copper Mines (in collaboration with Lj. Krsmanovic), Yugoslavia.

14.   Analysis of Water Hammer in the Treated Water System of the Copper Mill "Slobodan Penezic - Krcun", Uzice, Yugoslavia.

15.   Analysis of Water Hammer and Pumps Selection for the "Makis" System of the Belgrade Waterworks and Sewage System (in collaboration with Lj. Krsmanovic, and A. Gajic), Yugoslavia.

16.   Hydraulic Vibrations of the "Lisina" Pump Storage Plant, Surdulica, 1980, Yugoslavia.

17.   Hydraulic Vibrations of the "Perucica" Hydro Power Plant, Yugoslavia.

18.   Hydraulic Vibrations of the "Bistrica" Pump-Storage Power Plant, Yugoslavia.

19.   Hydraulic Vibrations of the Pumped-Storage Power Plant "Bajina Basta", Yugoslavia.

20.   Hydraulic Oscillations of Hydro Power Plant "Bocac" Yugoslavia.  

21.   Analysis of Waterhammer in Water Supply System of Aleksandrovac, Yugoslavia.

22.   Vibrations of Hydro Power Plant "Globocica", Yugoslavia, Belgrade, 1977.

23.   Hydraulic Vibrations of Hydro Power Plant "Trebinje I", Yugoslavia, Belgrade, 1983.

24.   Analysis of Hydraulic Transients in the Pumping Station "Djurici" of the Pumped Storage Power Plant "Bajina Basta", Yugoslavia, Belgrade, 1983.

25.   Auto-Oscillations of the Sealing Ring in the Ball Valve of the Pumped Storage Power Plant "Capljina", Yugoslavia, Analysis of Resonance, 1984.

26.   Hydraulic Vibrations of Hydro Power Plant "Zavoj", Yugoslavia, "Energoprojekt" Co., Belgrade, 1984.

27.   Hydraulic Transients in the Fuel System, Yugoslavia, Faculty of Mech. Eng., Belgrade, 1986.

28.   Vibrations of Hydropower Plant "Djerdap I" (Iron Gate I), Yugoslavia, 1989.

29.   Hydraulic Transients in Powerplant "Djerdap I", (Iron Gate I), Yugoslavia, 1989-1991.

30.   Excessive Vibration of the Bulb Units of Powerplant "Djerdap II" (Iron Gates II) at the heads higher than 8 m, 1991.

31.   Autooscillations of the Ball Valve and Braking Nozzle's Valve of Hydro Power Plant "Perucica", Yugoslavia.

32.   Autooscillations of the Butterfly Valve in the Pumping Station "Vracar II" of Drinking Water System Belgrade, Yugoslavia.

33.   Oscillations of the Unit and Hydraulic Vibrations of Hydro Power Plant "Uvac", Yugoslavia, 1980.

34.   Restoring of the Aerator in the Sewerage System of the Town Vrsac, Yugoslavia, 1987.

 

 

 

8          Tender Documents

 

1.    Hydro Power Plant "Vrla I" (Vlasina), Yugoslavia.

2.    Pumping and Storage Plant "Lisina", Yugoslavia.

3.    Pumping Station "Hamidija" of the Ibar - Lepenac System, Yugoslavia.

4.    Pumping Station "Besinje" of the Ibar - Lepenac System, Yugoslavia.

5.    Pumping Station "Leskovo" of the Cooper Mines Majdanpek, Yugoslavia.

6.    Hydro Power Plant "Mostar".

7.    Hydro Power Plant "Visegrad".

 

 

 

9         List of Citations

1.      1.               Adamkowski A, Case study: Lapino powerplant penstock failure, J HYDRAUL ENG-ASCE 127 (7): 547-555 JUL 2001. http://www.ce.metu.edu.tr/~ce534/links/docs/CE534-WebFiles/penstock-failure.pdf

2.      2.               Almeida A. B., Ramos H., Water supply operation: diagnosis and reliability analysis in a Lisbon pumping system, Journal of Water Supply: Research and Technology—AQUA | 59.1 | 2010; http://www.iwaponline.com/jws/059/0066/0590066.pdf

3.      3.               Almeida A. B., Koelle E., Fluid transients in Pipe Networks, Computational Mechanics Publications, Elsevier Applied Science, 1992.

4.      4.               Amini F., End of the Rope for Vortex Pressure Pulsations, Water Power & Dam Construction, November 1996, pp. 26-28. http://www.iotpe.com/IJTPE/IJTPE-2010/IJTPE-Issue4-Vol2-No3-Sep2010/5-IJTPE-Issue4-Vol2-No3-Sep2010-pp30-36.pdf

5.      5.               Anderson A., Trends integrating fluid transients into pipe system design though a risk management approach, BHR Group 2008 Pressure Surges 10, Conference CD.

6.      6.               Anderson A., Invited Lecture: Potential causes of high pressure transients in urban water systems and their solutions, Pumps, Electromechanical Devices and Systems Applied to Urban. Municipal water supply, 2003 Swets & Zeitlinger, Lisse.

7.      7.               Anderson A., Arfaie M., Variable Waterhammer Wave speed in Column Separation, Hydraulic Transients with Water Column Separation, Universidad Politecnica de Valencia, Round Table of the IAHR Group, Valencia, 1992.

8.      8.               Arnautović D.B., Matematički modeli hidrauličkih sistema hidroelektrana, Zbornik radova, Elektrotehnički institut "Nikola Tesla" 2004, br. 16, str. 19-31

9.      9.               .Arnautović D.B., Modeliranje hidrauličkog udara u cevovodima hidroelektrana, Elektroprivreda, 2005, vol. 57, br. 2, str. 31-39

10.  10.            Arnautovic D., Obradovic D., Nonlinear Mathematical Modelling of Transient Regimes in Multi-Machine Hydro Power Plants, Turboinstitut Conference on Hydraulic Machinery, Ljubljana, 1988.

11.  11.            Asadi-Khiavi Y., Modelling the Interaction of Air Cushioning & Unstable Surge in Francis Turbine during Load Rejection, 19th International Power System Conference, PSC 2004, 98-E-EPG-825. http://www.krec.ir/confferance/19/proceedings/98-E-EPG-825.pdf

12.  12.        Asli K.H.,· Faig Bakhman F., Naghiyev O., Haghi A.K., Some aspects of physical and numerical modeling of water hammer in pipelines, Springer Science+Business Media B.V. 2009. http://www.scribd.com/doc/38339799/Some-Aspects-of-Physical-and-Numerical-Modeling-of-Water-Hammer-in-Pipelines

13.  13.            Asli Kh., Naghiyev F.B., Aliyev S.A., Haghi A.K, Physical and Numerical Modelling of Fluid Flow in Pipelines. A Computational Approach, Journal of the Balkan Tribological Association, 2010; 16(1): Page 20-34.

14.  14.            Asli Kh., Nagiyev F.B.O., Aliyev S.A., Haghi A.K., Asli H.H., Modeling of Fluid Interaction Produced by Water Hammer, Modeling of Fluid Interaction Produced by Water Hammer, International Journal of Chemoinformatics and Chemical Engineering, 1(1), 29-41, January-March 2011, Page  29.

15.  http://www.irma-international.org/viewtitle/50470/

16.  15.        Asli K.H., Nagiyev F.B., Haghi A.K., Asli H.H., Improved Modeling for Water Surge Wave, International Journal of Multimedia Technology, 2011. http://www.ijmt.org/paperInfo.aspx?ID=10

17.  16.            Asli K.H., Nagiyev F.B., Naghi A.K., Haghi A.K., Aliyev S.A., Asli H.H., Improved Nonlinear Heterogeneous Model for Wastewater Treatment, International Journal on “Technical and Physical Problems of Engineering”, September 2010, Issue ,4 Volume 2, Number 3, Pages 30-36.

18.  17.            Asli K.H.,Naghiyev F.B.,Aliyev S.A.,Haghi A.K, Physical and Numerical Modelling of Fluid Flow in Pipelines. A Computational Approach, Journal of The Balkan Tribological Association  2010; 16(1):Page 20-34.

19.  18.            Asli K.H., Nagiyev F.B.O., Aliyev S.A., Haghi A.K., Asli H.H., Modeling of Fluid Interaction Produced by Water Hammer, Modeling of Fluid Interaction Produced by Water Hammer, International Journal of Chemoinformatics and Chemical Engineering, 1(1), 29-41, January-March 2011, Pge  29. http://www.irma-international.org/viewtitle/50470/

20.  19.            Atlantic Nuclear Services Ltd., (Project Team: C.K. Scott, Project, Manager, L. Boruvka, Senior Engineer, A. Chowdhury, Project Engineers) Cold Water Injection into Two-Phase Mixtures, A research report prepared for the Atomic Energy Control Board, Ottawa, Canada, Research report, Project No. 2.145.1, July 1989. http://www.iaea.org/inis/collection/NCLCollectionStore/_Public/23/039/23039833.pdf

21.  20.            Avakumović D., Proračun hidrauličkog udara u pumpnim cevovodima, Vodoprivreda, 2008, vol. 40, br. 1-3, str. 39-

22.  21.            Avellan F., Dupont P., Farhat M., Gindroz B., Henry P., Hussain M., Parkinson E., Santal O. (1990) Flow survey and blade pressure measurements in a Francis turbine model. In: Pejovic S. (ed) Proceedings of the 15th IAHR Symposium on Hydraulic Machinery and Cavitation, Belgrade, Yugoslavia, vol 2, I5, pp 1-14.

23.  22.            Avellan F., Dupont P., Farhat M., Gindroz B., Henry P., Hussain M., Parkinson E., Santal O. (1990) Flow survey and blade pressure measurements in a Francis turbine model. In: Pejovic S. (ed) Proceedings of the 15th IAHR Symposium on Hydraulic Machinery and Cavitation, Belgrade, Yugoslavia,

24.  23.            Baker P.J., Ramos H. Selection of Transient Analysis Software for Pipeline Design: Towards A European Standard, project “Transient Pressures in Pressurised Conduits for Municipal Water and Sewage Water Transport” (EU Project Reference SMT4-CT97-2188). << http://www.civil.ist.utl.pt/~hr/PS-HP.pdf>>

25.  24.            Begovic K., Hydroelectric Plants. Introduction and Problems of Equipment Selection (in Serbo-Croatian: Hidroenergetska postrojenja. Uvod u probleme izbora opreme), "DELIT", Sisak, 1986.

26.  25.            Bergant A., Simpson A.R., Tijsseling A.S., Water Hammer with Column Separation: A Review Of Research In The Twentieth Century, Journal of Fluids and Structures, 2006; 22 (2):135-171

27.  26.            Bergant A., Tijsseling A.S., Vítkovský J.P., Discrete Vapour Cavity Model with Improved Timing of Opening and Collapse of Cavities, ftp://ftp.win.tue.nl/pub/rana/rana07-29.pdf

28.  27.            Bergant A., Tijsseling A.S., Vítkovský J.P., SIMPSON A.R., LAMBERT M.F., Discrete Vapour Cavity Model with Improved Timing of Opening and Collapse of Cavities, Scientific Bulletin of the “Politehnica” University of Timisoara Transactions on Mechanics, Tom 52(66), Fascicola 6, 2007.

29.  28.            Best Practice Catalog - Penstocks and Tunnels, Revision 1.0, 12/06/2011, Prepared by MESA ASSOCIATES, INC., Chattanooga, TN 37402, and OAK RIDGE NATIONAL LABORATORY, Oak Ridge, Tennessee 37831-6283, managed by UT-BATTELLE, LLC for the U.S. DEPARTMENT OF ENERGY under contract DE-AC05-00OR22725

30.  29.            Bibliography: Authors; http://www.win.tue.nl/fsi/5%20Biblio/BIBLIOGRAPHY.HTM

31.  30.            Bikram L., Speed up process, Business Times Serving The Communities of Cambridge, Guelph, Kitchener and Waterloo, Nov 2006.

32.  31.            Blommaert G., Etude Du Comportement Ynamique Es Turbines Francis: Contrôle De Fonctionnement Actif De Leur Stabilité, École Polytechnique Fédérale De Lausanne, PhD Thesis, 2000.

33.  32.            Boldy A. P., Simulation of Hydraulic Transients in Large Hydraulic Systems. International Congress on Cases and Accidents in Fluid Systems, São Paulo, Brazil, 1989.

34.  33.            Boldy A.P., Guo D.C., Editors, Current State of Technology in Hydraulic Machinery,  Gower Technical Press Limited, Aldershot, Hampshire GU11 3HR United Kingdom, 1989.

35.  34.            Boldy A. P., Swaffield, J.A., Pressure Surge in Pipe and Duct Systems, Avebury Technical, 1993.

36.  35.            Boulos P.F., Karney B.W., Wood J.D., Ligireddy S., Hydraulic Transient Guidelines for Protecting Water Distribution Systems, Journal AWWA, May 2005.

37.  36.            Boulos P.F., Lansey I.E., Karney B.W., Comprehensive Water Distribution Systems Analysis Handbook for Engineers and Planers, Second Edition, MWH Soft, Pasadena, California, USA, 2006.

38. 37.            Boulos P.F., Lansey I.E., Karney B.W., Comprehensive Water Distribution Systems Analysis Handbook for Engineers and Planers, MWH Soft, Pasadena, California, USA, 2004.

 

39.  Brekke H., Hydraulic Turbines Design, Erection and Operation, Endringsdato: Juni 2001.

40.  38.            Bucur D. M.Dunca G., Cervantes M.J., Călinoiu C.,Isbăşoiu E.C., Simultaneous transient operation of a high head hydro power plant and a storage pumping station in the same hydraulic   Scheme, 27th IAHR Symposium on Hydraulic Machinery and Systems (IAHR 2014)

41.  39.            Cabrera E., Cabrera E. Jr, (eds), Pumps, Electromechanical Devices and Systems Applied to Urban . Municipal water supply, 2003 Swets & Zeitlinger, Lisse.

42.  40.            Carbo M.A., Stearns Ch. F., Practical Design Against Pump Pulsations, Proceedings of the 22nd Intern. Pump Users Symp, 2005, pp. 137-177, Link:

43.  41.            Cattanei A., Capozza A., A Transfer Matrix Model for a Francis Turbine Group Interacting with Hydraulic Circuit and Electrical Network, IAHR Symposium, Beijing 1994.

44.  42.            Centre for urban energy, Powering Urban Futures through Research  Innovation, An Introduction, Ryerson-York Workshop, June 21, 2011.

45.  43.            Chaudhry, M. H., Mathematical Modelling of Transient Flows with Column Separation, Hydraulic Transients with Water Column Separation, Universidad Politecnica de Valencia, Round Table of the IAHR Group, Valencia, 1992.

46.  44.            Cbos G., Eguibar M.A., Banuls L., Dam-break flood sensitive analysis. Case study in the “Confederacion Hidrografica del Erbo,” Dams and Reservoirs, Societies and Environment on the 21st Century pp. 917-924.

47.  45.            Cizelj, S., Dolenc, D., Bergant, A., Design aspects of refurbished Kaplan turbines for MedvodeHPP in Slovenia, HYDRO 2005, POLICY INTO PRACTICE. Villach, Austria, 17 to 20 October 2005 http://scholar.googleusercontent.com/scholar?q=cache:R6loNqPE4JsJ:scholar.google.com/+hydraulic+transients+pejovic&hl=en&as_sdt=0,5&as_vis=1

48.  46.            Cizelj, S., Dolenc, D., Bergant, A., “Design features of the refurbished Kaplan turbines for theDrava river hydro plants, Phase II”, Hydro 2003 International Conference and Exhibition, Cavtat, Croatia, 2003

49.  47.            Chow .M.T., Yan K.W., Li C.W., Wai O.W.H., Li Y.S., Design of a pumping station with underground storage for draining of a low-lying area in Hong Kong, Pumps, Electromechanical Devices and Systems Applied to Urban Water Management  Cabrera & Cabrera Jr (eds), 2003 Swets & Zeitlinger, Lisse

50.  48.            Croatian Scientific Bibliography (Hrvatska znanstvena bibiliografija): Link

51.  49.            Goncalves M.N.F., Analise de Fenomenos Oscilatorios e Vibracoes Iduzidas por Escoamentos Secundarios em Usinas Hidroeletricas e Redes Hidrsulicas de Condutos Forcados, PhD Thesis, Universidade de São Paulo, 1990.

52.  50.            Derakhshan Sh., Mostafavi A., Optimization of GAMM Francis Turbine Runner, World Academy of Science, Engineering and Technology 59 2011. http://www.waset.org/journals/waset/v59/v59-141.pdf

53.  51.            Djonin K., Gajic A., Predic Z., Hydraulic Problems and Transients in the Tunnel Banovo Brdo - Tasmajdan (in Serbo-Croatian: Tasmajdan Hidraulicki problemi i prelazni rezimi u tunelskom dovodu Banovo Brdo - Tasmajdan), Zbornik radova "Snabdevanje Beograda vodom", Savez drustva inzenjera i tehnicara Beograda, Beograd, 1987.

54.  52.            Doerfler P., Machine Tests, Final Summery, IAHR Work Group on Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Mexico City, 1985.

55.  53.            Duan CG,, Karelin V.Y., Abrasive Erosion and Corrosion of Hydraulic Machinery, Imperial College Press, 2002.

56.  54.            Dunn A., Lai Chi Keung, Frequency-inverter controlled pumps as a cause of pipeline resonance, Building Services Engineering Research and Technology, Vol. 16, No. 2, 115-117 (1995)

57.  55.            Ellis,J. Pressure transients in water engineering, A guide to analysis and interpretation of behavior, Thomas telford, 2008

58.  56.            The Engineering Newsletter. University of Toronto, Faculty of App;lied Sciencies and engineering, Vol. 2, Issue 35, April 22, 2009. - MIE Professor Quoted in Toronto Star Article on Hydraulic Energy Systems The Toronto Star asks for MIE's Stanislav Pejovic's expert opinion as part of Ontario's future in water power. Read the article here. (http://www.thestar.com/business/2009/03/23/the_ups_and_downs_of_water_power.html

59.  57.            European Commission, WP 1- Standards and Ground-rules, Ground-rules proposal, Transient Pressure in Pressurised Conduits for Municipal Water Transport; SMT4-CT97-2188, WL   delft hydraulics, 2001.

60.  58.            Falvey .T., Draft Tube Vortex Behaviour, Final Summery, IAHR Work Group on Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Mexico City, 1985.

61.  59.            Fox, J.A., Hydraulic analysis of unsteady flow in pipe networks, MONOGRAPHS, London : Macmillan Press, 1977. http://opac.lib.kmutt.ac.th/vufind/Record/1047797

62.  60.            Gajić A., Analysis of Nonstationary Phenomena in Hydraulic Systems  (in Serbo - Croatian), M. Sc. Thesis, Faculty  of  Mechanical  Engineering, Belgrade, 1978. pp. 92+ Appendix 166.

63.  61.            Gajic A., Contribution to the Transient Analyses in Hydraulic Systems (in Serbo-Croatian: Prilog proucavanju nestacionarnih pojava u hidroenergetskim postrojenjima, Doktorska disertacija), Masinski fakultet, Beograd, 1982.

64.  62.            Gajic A., Hydraulic Oscillations Caused by the Earthquake,  4TH International Symposium on fluid Machinery and Fluid Engineering, Beijing China 2008,  NO. 4ISMEE-IL25

65.  63.            Gajic A., Kaplan turbine Incidents Due to Reverse Water Hammer and Mathematical Model Confirmed by the Field Tests, Proceedings of the International Symposium on Aerospace and Fluid Science, Institute of Fluid Science, Tohoku University, 1993.

66.  64.            Gajić A., Hidraulička stabilnost cevnih turbina i  uticaj  prigušenja  na oscilacije, Saopštenja,  Beograd, 1995., No1/1995., str. 50-54.

67.  65.            GajićA., Hidraulička  stabilnost  oscilacija  niskopritisnih  elektrana, Tehnika Mašinstvo, Beograd, 1996., No3-4/1996., str. 63-67.

68.  66.            Gajic A., Measurement and Instrumentation of Pumping Stations (in Serbo-Croatian: Merenje i merna oprema na crpnim stanicama), Zbornik referata sa savetovanja "Projektovanje, izgradnja i eksploatacija crpnih stanica vodovoda i kanalizavcije", Beograd. 1989.

69.  67.            GajićA.,  Povratni hidraulički udar u Kaplanovim turbinama, (rad po pozivu), Naučno-stručni skup Hidro ’96, Beograd, 1996., str. 1-22.

70.  68.            Gajic A., Transients in the Inlet Tunnel of City Water Supply (in Serbo-Croatian: Nestacionarne pojave u dovodnom tunelu gradskog vodovoda), Jugoslovenski kongres teorijske i primenjene mehanike, Ohrid, 1990.

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182.          179.         Raabe J., Hydraulische Maschinen und Anlagen, VDI-Verlag GmbH, Düsseldorf, 1989.

183.          180.         Raabe J., Hydro Power - The Design, Use and Function of Hydromechanical, Hydraulic and Electrical Equipment, VDI, Verlag GmbH, Düsseldorf, 1985.

184.          181.         Radojkovic M., Obradovic D., Maksimovic C, Computer Design of Municipality Hydraulic Systems (in Serbo-Croatian: Projektovanje vodovodnih i kanalizacionih sistema primenom racunara), seminar Nova Gorica, 1987.

185.          182.         Radojkovic M., Obradovic D., Maksimovic C, Computers in Municipality Hydraulics) (in Serbo-Croatian: Racunari u komunalnoj hidrotehnici), Gradjevinska knjiga, Beograd, 1989

186.          183.         Рајић, R., Аранђеловић I., Гајић, A., Дубоњић, R., анализа утицаја напредних пројеката на финансијска побољшања у хидроелектранама, Faculty of Mech. Eng., Belgrade.

187.          184.         Ramos H., G Guideline for Design of Small Hydropower Plants, WREAN (Western Regional Energy Agency & Network) and DED (Department of Economic Development), Belfast, North Ireland, 2000. ftp://193.137.229.181/Tecnologias.De.Valorizacao.Ambiental.E.Producao.De.Energia.263/AnoLectivo.2009-2010/Semestre2/Sistemas.Hidricos/book-SHP.pdf .

188.          185.         Ramos H., Almeida, A.B., Dynamic Orifice Model On Waterhammer Analysis Of High Or Medium Heads Of Small Hydropower Schemes, Journal Of Hydraulic Research, Vol. 39, 2001, No. 4 Link Http:<Http://Www.Civil.Ist.Utl.Pt/~Hr/Iahr2001.Pdf>

189.          186.         Ramos H,  Almeida A.B., Parametric analysis of water-hammer effects in small hydro schemes, J Hydraul Eng-ASCE 128 (7): 689-696 JUL 2002.

190.          187.         Ramos H, Almeida AB, Dynamic orifice model on waterhammer analysis of high or medium heads of small hydropower schemes, Hydraul Res 39 (4): 429-436 2001.

191.          188.         Ramos H., Almeida A.B., Covas D., Design Criteria Applied to Pressurised Gravity Systems, BHR Group Conference Series Publication, 2000,  http://www.civil.ist.utl.pt/~hr/Design.pdf

192.          189.         Ren Jianxin  , Jiang Sheng, Conveying Pipeline System Vibration Progress: (in Chinese}, Mechanics Progress, 2003. http://www.wanfangdata.com.cn/qikan/periodical.Articles/lxjz/lxjz2003/0303/030303.htm

193.          190.         Riasi A., Mirian R., Nourbakhsh A., Derakhshan S., Frequency analysis of Francis hydro units:Use of the characteristics method and unit impulse response, http://scholar.googleusercontent.com/scholar?q=cache:kcV0NJYctSYJ:scholar.google.com/+hydraulic+transients+pejovic&hl=en&as_sdt=0,5&as_vis=1

194.          191.         Romeo Susan-Resiga, Sebastian Muntean, Romeo Susan-Resiga, Sebastian Muntean, Fluid Machinery and Fluid Mechanics

195.          192.         Senoo Y., Yamaguchi M., A Study on Unstable S-Shape Characteristic Curves of Pump Turbines at No-Flow, Journal of Turbomachinery, January 1987, Vol. 109, pp. 77 - 82.

196.          193.         Senoo Y., Yamaguchi M., A Study on Unstable S-Shape Characteristic Curves of Pump Turbines at No-Flow, American Society of Mechanical Engineers (Paper) Publ. by ASME, New York, NY, USA 86-GT-17, 6p.

197.          194.         Sustainability Express, Sustainability Office @ U of T, February 2005, Volume 1, Issue 1.

198.          195.         Sijamhadzic E., Dynamic Programming Approach to Optimization of Hydropower Plants with Kaplan Turbines, Turboinstitut Conference on Hydraulic Machinery, Ljubljana, 1988.

199.          196.         Smolinski P., New Methods in Transient Analysis: Presented at the Winter Annual Meeting of the American Society of Mechanical Engineers, Anaheim, California, November 8-13, 1992.

200.          197.         Stajić Z., Petrović D., Arnautović D., Starting generator driving torque modeling in the studies of synchronous starting of synchronous machines, Facta universitatis - series: Electronics and Energetics 2002, vol. 15, br. 3, str. 399-408. Link: http://scindeks.nb.rs/article.aspx?artid=0353-36700203399S

201.          198.         Stevanovic V.D., Dynamic Loads by Various Water Hammer Phenomena, Structural Integrity and Life, Vol. 9 No 1, 2009, pp. 51-56, http://www.divk.org.rs/ivk/ivk09/051-IVK1-2009-VS.pdf.

202.          199.         Stevanovic K., Hydraulic Vibrations of 58.5 MW Units of Powerplant "Perucica" (in Serbo-Croatian: Hidraulicke vibracije na agregatima 58,5 MW HE "Perucica"), Okrugli sto: "Prelazni procesi u hidroenergetskim sistemima", Institut tehnickih nauka Srpske akademije nauka i umetnosti, Beograd, 1986.

203.          200.         Stevanovic V. Studovic M., Nedeljkovic S., Ilic M., Thermal-Hydraulics of District Heating Systems - Methods for the Simulation of Operating Conditions (Abstract in English) (in Serbo-Croatian: Termohidraulika sistema toplovoda - Metode simulacije pogonskih uslova), Zbornik radova "Termohidraulicki procesi u energetici, "Termohidraulika '94", Beograd 1994

204.          201.         Stevanovic V. Studovic M., Nedeljkovic S., Ilic M., Thermal-Hydraulics of District Heating Systems - Methods for the Simulation of Operating Conditions (Abstract in English) (in Serbo-Croatian: Termohidraulika sistema toplovoda - Metode simulacije pogonskih uslova), Termotehnika, casopis termicara Jugoslavije god. XXI, br. 1-2, str. 83-91, Beograd 1995 (, Journal Termotehnika, XXI, No. 1-2, Belgrade, 1995)

205.          202.         Stojanovic Z. (editor), Design of Hydraulic Plants - Prof Dr Stanislav Pejovic’s Lectures (in Serbo-Croatian; at the University of Belgrade, Faculty of Mechanical Engineering)

206.          203.         Svingen, B., Stojanović, Z., Brekke, H., Gajić, A., Two Numerical Methods of Hydraulic Oscillations Analysis in Piping Systems including Fluid-Structure Interaction, International Conference on Fluid Engineering, (JSME Centennial Grand Congress), str. 1601-1606, 1997

207.          204.         Swaffield, J.A. Boldy, A.P., Pressure surge in pipe and duct systems, Aldershot : Avebury Technical, 1993 p 380.

208.          205.         Sasic M., Fluid Flow in Pipelines (in Serb-Croatian: Transport fluida cevima), Masinski fakultet, Beograd, 1982.

209.          206.          Tešnjak S., 46.Croatian Scientific Bibliography (Hrvatska znanstvena bibiliografija). http://bib.irb.hr/lista-radova?autor=49425

210.          207.         Tijsseling A.S.,  Anderson A., A precursor in waterhammer analysis – rediscovering Johannes von Kries Link: ftp://ftp.win.tue.nl/pub/rana/rana04-02.pdf

211.          208.         Tijsseeling A.S., Zhang L., Vardy A.E. Time-Domain and Frequency- Domain Analyses of Liquid-Filled Pipes, IAHR Work Group. on the Behaviour of Hydraulic Machinery under Steady Oscillatory Conditions, Chatou, France, 1997, Paper F1, pp. 10.

212.          209.         Totten G.E.(Editor), Wills D.K. (Editor), Feldmann D.G. (Editor) Hydraulic Failure Analysis: Fluids, Components, and System Effects (Astm Special Technical Publication// Stp), ASTM International - 2001-04, pp 600. http://www.bookfinder4u.com/compare.bfu?isbn=0803128835

213.          210.         Transient Phenomena in Multiphase and Multicomponent Systems: Research Report (Mitteilungen der Senatskommission zur Beurteilung von Stoffen in der Landwirtschaft (DFG)), Deutsche Forschungsgemeinschaft, 2000

214.          211.         Vad J., Lajos T., Schilinf R., (Editors) Modelling Fluid Flow, the State of the Art, Springer, 2004.

215.          212.         Vasilevich A,V,, Numerical analyses of low-frequency pressure pulsations in the draft tube of turbines, FANO RUSSIA, Federal State Funding Science Institute of Thermophysics. SS KUTATELADZE Siberian Branch of Russian Academy of Sciences, Novosibirsk 2015 (In Russian: Сентябов Андрей Васильевич, ЧИСЛЕННОЕ ИССЛЕДОВАНИЕ НИЗКОЧАСТОТНЫХ ПУЛЬСАЦИЙ ДАВЛЕНИЯ В ОТСАСЫВАЮЩЕЙ ТРУБЕ ГИДРОТУРБИНЫ, ФАНО РОССИИ, ФЕДЕРАЛЬНОЕ ГОСУДАРСТВЕННОЕ БЮДЖЕТНОЕ УЧРЕЖДЕНИЕ НАУКИ ИНСТИТУТ ТЕПЛОФИЗИКИ ИМ. С.С. КУТАТЕЛАДЗЕ СИБИРСКОГО ОТДЕЛЕНИЯ РОССИЙСКОЙ АКАДЕМИИ НАУК, Новосибирск – 2015)

216.          213.         Wang Z., Chen N., Qu L., Nie Q., Zheng B., Simulation of Load-Rejection Transient Process for Bulb Turbine Station, 96dH

217.          214.         Wiggert D.C., Fluid Transients in Flexible Piping Systems, 18th IAHR Symposium, Valencia, 1996, pp 58-67.

218.          215.         Wiggert D.C., Tijsseling A.S., Fluid transients and fluid-structure interaction in flexible liquid-filled piping, Applied Mechanics Reviews -- September 2001 -- Volume 54, Issue 5, pp. 455-481.

219.          216.         Who's Who in the World, Marquis Twelfth Edition, 1995

220.          217.         World financial news, The ups and downs of water power, The ups and downs of water power, 2009, http://financialmarketweblog.com/the-ups-and-downs-of-water-power/

221.          218.          Wylie E. B., Streeter V. L., Fluid Transients in Systems, Prentice Hall, 1993.

222.          219.          Xu J., Wu Y., Zhang Y., Zhang J., Fluid Machinery and Fluid Mechanics: 4th International Symposium (4th ISFMFE0  Beijong, China, 2008

223.          220.         Zaher M.A., Using aerodynamic methods for the testing of hydraulic machines, Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, Volume 218, Number 3 / 2004

224.          221.          Zhang Q.F. (Katherine), Numerical Modeling of Active Hydraulic Devices and Their Significance to System Performance and Transient Protections PhD Thesis University of Toronto, 2008.

225.          222.         Zhang Q.F. (Katherine), Numerical Modeling of Transient Flow in Pipe Systems with Turbines, Msc Thesis University of Toronto, 2004.

226.          223.         Zhang Q.F. (Katherine), Karney B.,  Suo L., Colombo A.F., Stochastic Analysis of Water Hammer and Applications in Reliability-Based Structural Design for Hydro Turbine Penstocks, J. Hydraulic. Eng. 137, 2011; http://ascelibrary.org/hyo/resource/1/jhend8/v137/i11/p1509_s1?isAuthorized=no

227.          224.         Zheng Y., Qu B., Zhang J., Liu D., Suo L., Research on Water Hammer Protection with Gas in Pressurized Hydraulic Pipeline System (in Chinese}, Journal of Hydrodynamics, 2005 Vol.20 No.4 P.436-441. http://www.wanfangdata.com.cn/qikan/periodical.Articles/sdlxyjyjz/sdlx2005/0504/050404.htm

228.      225.         Zivic M., Two-Phase Flow and Waterhammer (in Serb-Croation: Dvo-fazna strujanja tecnosti u cevovodima i hidraulicki udar), 10to savjetovanje Jugoslovenskog drustva za hidraulicna istrazivanja, Sarajevo, 1990.

Back to new website; http://stanpejovic.com/
 

10       List of All Courses

 

 

10.1 Courses at Ryerson University and University of Toronto

Institution:

Course(s):

Year(s):

Name of Reference (with telephone and position title):

Ryerson University              

PCS130 Physics II

 

PCS106 Physics for the Health Sciences

 

PCS 110 Physics

 

PCS 125 Physic

W2017

W2010

 

W 2008

W 2007

 

2003

 

2003

Prof. Michael Kolios (416-979-5000 Ex. 7065)

Ryerson University

Continuing Education          

CPCS120 Physics I

 

 

 

 

CPCS211  Physics II-Mechanics

 

 

 

 

 

 

CPCS106 Physics for the Health Sciences

 

 

S  2015

W 2015

W 2014

W 2013

W 2012

W 2011

 

W 2010

W 2009

W 2008

W 2007

W 2005

 

S 2016

S 2015

S 2014

S 2013

S 2011

S 2010

S 2009

S 2008

S 2007

S 2006

S 2005

Prof. Michael Kolios (416-979-5000 Ex. 7065)

University of Toronto

EDV301H1 S: Design of Hydro and Wind Electric Plants

 

CIV1099 Design of Hydro and Wind Electric Plants

 

CIV 1099 Energy Transformation Systems

 

MIE270 Fluid Mechanics

2010

2009

 

2008

 

 

2006

 

 

2004

Prof. Bryan Karney (416-978-7776, Chair

 

10.2 Other Courses at Universities

 

10.2.1      Courses to Graduate Students

 

·         University of Toronto

1.   CIV1099 Design of Hydro and Wind Electric Plants (for the first time in North America)

2.   CIV 1099 Energy Transformation Systems

·         Ministry of the Environment and Energy, Toronto, Ontario, Canada

1.    Introduction to Pumps and Pumping (Bryan Karney and Stanislav Pejovic), University of Toronto, Toronto, Ontario, Canada, June 2003

·         Electricity Board of Yugoslavia – Hydroelectric Plant "Djerdap"

1.    Transient Phenomena in Hydroelectric Plants

2.    Hydroelectric Plants - a General Course

·         National University of Singapore

1. Pumps in Pumping Systems

2. Failures of Pumping Systems Caused by Waterhammer and Hydraulic Vibrations

·         University of Skopje, Faculties of Mechanical Engineering

1.  Transient Phenomena in Hydroelectriuc Plants and Pumping Systems.

·         University of Sarajevo, Faculties of Mechanical Engineering

1.    Transient Phenomena in Hydroelectric Plants and Pumping Systems

 

10.2.2      Undergraduate Courses

 

·         University of Toronto, Canada

1.      1.    EDV301 Design of Hydro and Wind Electric Plants (for the first time in Horth America)

2.      2.    MIE270F Fluid Mechanics I, Fall 2004

·         Ryerson University, Toronto, Canada

1.      1.    CPCS120 Physics I

2.      2.    PCS130 Physics II

3.      3.    CPCS211 Physics II: Mechanics

4.      4.    PCS106 & CPCS106 Physics for Health Sciences

5.      5.    PCS110 Physics

6.      6.    PCS125 Physics I

·         National University of Singapore

1.      1.    Fluid Mechanics 3

2.      2.    Mechanical System Design - Final Year Design Project

·         University of Belgrade

1.      1.    Turbomachines

2.      2.    Measurements and Instrumentation

3.      3.    Design of Hydraulic Systems

4.      4.    Hydraulic System Components

5.      5.    Hydro Power Plant and Pumping System Design

6.      6.    Thermal Turbomachines (Turbofans)

8.    7.    Theory of Turbomachines

9.    8.    Hydraulics and Hydraulic Machinery

10. 9.    Compressors

 

10.2.3      Seminars

 

a.            Invited Seminar: The Challenge and Opportunity of 21st Century Hydro (All) – a guided SWOT analysis, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link:1.     Invited Seminar: The Challenge and Opportunity of 21st Century Hydro (All) – a guided SWOT analysis, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link:

1.       

2.      https://www.apeg.bc.ca/getattachment/Events/Events/14NOVEHP/APEGBC_Essential_Hydro_Power_Seminar_Day3.pdf.aspx

3.      2.     Tree Days Invited Seminar: Essential Hydro Power, S. Pejovic, T. Maricic and B. Karney>, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2014. Link: https://www.apeg.bc.ca/Events/Events/14NOVEHP

4.      3.     Two Days Invited Seminar: Turbomachines in Hydroelectric Plants: Selection, Operation, Hydroelectric Plant Operating Diagrams, S. Pejovic, T. Maricic and B. Naser, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2012

5.      4.     Two Days Invited Seminar: Turbomachines in Hydroelectric Plants: Selection, Operation, Hydroelectric Plant Operating Diagrams, S. Pejovic, T. Maricic and B. Karney, Professional Engineers and Geoscientists of BC, Vancouver, British Columbia, 2009,

6.      5.     Extreme Theoretical Pressure Oscillations in Coronary Bypass (authors: Ana Pejović-Milić, Ryerson University, CA; Stanislav Pejović, University of Toronto, CA; Bryan Karney, University of Toronto, CA, Mini Seminar at the University of Toronto, October 2003,

7.      6.     Case Studies, Mini Seminar at the University of Toronto,

8.      7.     Fluids Panel, Faculty of Mechanical Engineering, Universiti Teknologi Malaysia in Collaboration with International Editorial Committee for Book Series on Hydraulic Machinery, United Kingdom,

9.      8.     American Society of Mechanical Engineers, Singapore Chapter,

10.  9.     University of Warwick, Department of Engineering, Coventry, England,

11.  10. National University of Singapore, Department of Mechanical & Production Engineering,

12.  11. University of Hong Kong, Department of Mechanical Engineering,

13.  12. "Energoprojekt", Belgrade,

14.  13. Department of Mechanics, Mathematical Institute, Belgrade,

15.  14. University of Belgrade, Faculty of Mechanical Engineering.

 

 

 


 

11    Evidence of teaching skills and effective interaction with students and colleagues

 

11.1 Faculty Course Survey

 

11.1.1    Ryerson University Teaching Assessment

 

 


 

 

11.1.2    Ryerson University Faculty Course Survey PCS106 Winter 2007

 

 

 

  11.2    Faculty Course Evaluations for Ryerson University

 

11.2.1   Faculty Course Evaluations for Ryerson University - Spring 2015

 

 


 

 11.2.2  Faculty Course Evaluations for Ryerson University - Winter 2015

 

 

 

11.2.3   Faculty Course Evaluations for Ryerson University - Winter 2014

 

11.2.4   Faculty Course Evaluations for Ryerson University - Spring 2014

 

 

11.2.5     Faculty Course Evaluations for Ryerson University - Winter 2013

 


 

 

11.2.6     Faculty Course Evaluations for Ryerson University - Winter 2012

 

 

11.2.7    Faculty Course Evaluations for Ryerson University - Winter 2011

 


      Page 1 of 1

11.2.8      Faculty Course Evaluations for Ryerson University – CPCS211 Winter 2010   

Instructor's Results by Course and Section 

Online Evaluation 

Legend

 

Q01. The instructor is knowledgeable about the course material. (1=Agree, 5=Disagree) 

Q02. The course material is presented with enthusiasm. (1=Agree, 5=Disagree) 

Q03. The instructor stimulates my interest in this subject. (1=Agree, 5=Disagree) 

Q04. Concepts are clearly explained with appropriate use of examples. (1=Agree, 5=Disagree)

 

Q05. I get timely feedback on my assignments. (1=Agree, 5=Disagree) 

Q06. I get constructive feedback on my assignments. (1=Agree, 5=Disagree) 

Q07. The course handouts / postings contain all of the information I need about the organization and operation of this course. (1=Agree, 5=Disagree) 

Q08. The assessment methods, including tests, provide a fair evaluation of my learning.

(1=Agree, 5=Disagree) 

Q09. Students are treated with fairness and respect. (1=Agree, 5=Disagree) 

Q10. The class meets as scheduled and on time. (1=Agree, 5=Disagree) 

Q11. The course is well organized and managed. (1=Agree, 5=Disagree) 

Q12. The instructor is available for consultation as specified on the course handouts/ postings. (1=Agree, 5=Disagree) 

Q13. This course provides a valuable learning experience. (1=Agree, 5=Disagree)  Q14. The way this course is taught helps me to learn. (1=Agree, 5=Disagree)

PRN: Number of prepared surveys 

RCV: Received non-blank surveys  PAR%: Non-Blanks / Prepared 


 

 Rates

Instructor       Course

Sec.  Q01      Q02   Q03    Q04   Q05   Q06    Q07   Q08   Q09    Q10   Q11   Q12    Q13      Q14

PRN

RCV

PAR%

Stanislav Pejovic        1.0 1.3 2.3 2.0 1.0 1.8 2.0 1.8 1.0 1.0 2.0 1.3 2.0 2.0 16        4          25

      CPCS211  1.0 1.3 2.3 2.0 1.0 1.8 2.0 1.8 1.0 1.0 2.0 1.3 2.0 2.0 16        4          25

CPCS211BJ0      1.0 1.3 2.3 2.0 1.0 1.8 2.0 1.8 1.0 1.0 2.0 1.3 2.0 2.           16        4          25

 

 


       Faculty Course Evaluations for Ryerson University - Winter 2011 (Printed on 2 November 2013)

Instructor's Results by Course and Section Online Evaluation

 

 

Legend

 

 

Q01. The instructor is knowledgeable about the course material. (1=Agree, 5=Disagree)

Q02. The course material is presented with enthusiasm. (1=Agree, 5=Disagree)

Q03. The instructor stimulates my interest in this subject. (1=Agree, 5=Disagree)

Q04. Concepts are clearly explained with appropriate use of examples. (1=Agree, 5=Disagree)

Q05. I get timely feedback on my assignments. (1=Agree, 5=Disagree)

Q06. I get constructive feedback on my assignments. (1=Agree, 5=Disagree)

Q07. The course handouts / postings contain all of the information I need about the organization and operation of this course. (1=Agree,

5=Disagree)

Q08. The assessment methods, including tests, provide a fair evaluation of my learning. (1=Agree, 5=Disagree)

Q09. Students are treated with fairness and respect. (1=Agree, 5=Disagree)

Q10. The class meets as scheduled and on time. (1=Agree, 5=Disagree)

Q11. The course is well organized and managed. (1=Agree, 5=Disagree)

Q12. The instructor is available for consultation as specified on the course handouts/ postings. (1=Agree, 5=Disagree)

Q13. This course provides a valuable learning experience. (1=Agree, 5=Disagree)

Q14. The way this course is taught helps me to learn. (1=Agree, 5=Disagree)

 

 

PRN: Number of prepared surveys

RCV: Received non-blank surveys

PAR%: Non-Blanks / Prepared

 

 

 

Rates

 

 

 

 

 

Instructor     Course

Sec.  Q01      Q02   Q03    Q04   Q05   Q06    Q07   Q08   Q09    Q10   Q11   Q12    Q13      Q14

PRN

RCV

PAR%

 

 

Stanislav Pejovic

        1.0         1.6      1.4     1.4     1.1      1.7     1.0     1.1      1.0     1.0     1.2      1.2     1.1     1.8

33

10

30

 

 

 

CPCS120

        1.0         1.6      1.4     1.4     1.1      1.7     1.0     1.1      1.0     1.0     1.2      1.2     1.1     1.8

33

10

30

 

    CPCS120 FJ0        1.0      1.6       1.4       1.4     1.1      1.7      1.0      1.1       1.0      1.0       1.2 1.2        1.1            1.8          33       10          30

 


 

11.3 CESAR Course Evaluation

 

11.3.1  CESAR Course Evaluation CPCS106 Summer 2007 

 

 

ABOUT CESAR  

o   CESAR: YOUR STUDENTS’ UNIONEXECUTIVES 2013 2014STAFFBYLAWSAUDITED FINANCIAL STATEMENTSCLASS REPRESENTATIVESCFS: CANADIAN FEDERATION OF STUDENTSTHE TRUTH CORNER: CESAR LOCKOUT  

o   STAFF WAGES AND BENEFITSWE, THE STUDENTS, SUPPORT THE

LOCKOUTRSU! WHAT HAPPENED TO FAIR STUDENT FARES?LETTER TO

WINNIE NGCOMMUNICATIONNEWS  o NEWSNEWSLETTERCESAR HEALTH AND DENTAL  

o   OVERVIEWHEALTH AND DENTAL REFERENDUMHEALTH AND DENTAL

COVERAGEFAMILY COVERAGEHOW TO OPT-OUTMORE BENEFITS & DISCOUNTSFAQFORMSCONTACTSERVICES  

o   CAREER COUNSELLINGCESAR GENERAL BURSARYCLUBS & COURSE

UNIONSCOURSE EVALUATIONSCOMPUTER & PRINTING

SERVICESDISCOUNT TTC METROPASSESEQUITY SERVICE

GROUPSETHICAL SWAG PURCHASINGGRADUATION

PORTRAITSOVERVIEWLAWYER APPOINTMENT REQUESTMEMBER

HANDBOOK AND DAYPLANNERMULTI-FAITH ROOMRYERSON FREE

PRESSSTUDENT SAVER CARDTAX CLINIC & U-FILEUSED BOOK ROOMCAMPAIGNS  

o   STUDENTS OR STUDEBTS!UPPER YEAR ACCOUNTING COURSESA BOTTLE

WATER FREE CAMPUS!CHILD CARE ON CAMPUSCLOSE GOULD

STREETDROP FEES, END POVERTYNO MEANS NOON-CAMPUS PART-TIME &

CE STUDENT ISSUESSTOP THE MEGA QUARRYSTUDENTS AGAINST

WARSTUDENTS FOR SUSTAINABILITYSTUDENTS UNITED AGAINST RACISMEVENTS  o    2013 CESAR ORIENTATIONCALENDARCESAR MEETING RSVPACADEMIC ADVOCACY  

o   WORKSHOPS AND SEMINARSSTUDENT RIGHTS AND ADVOCACY

APPOINTMENT REQUESTGRADE APPEALSTANDING APPEALACADEMIC

MISCONDUCT APPEALOPT-OUT OF TURNITIN.COMINSTRUCTOR AND

COURSE COMPLAINTSMISSED ASSIGNMENTS, TESTS, AND

EXAMSPOLICIES, FORMS, AND OTHER RESOURCESFREQUENTLY ASKED QUESTIONSCONTACT US

 

PHYSICS FOR THE HEALTH SCIENCES – FA0

Instructor: PEJOVIC, STANISLAV 

Semester: SUMMER 2007 

Day: Tues 

Section: FA0 

Responses: 15 

Actual: 15 

 

Strongly Disagree

Disagree

Somewhat

Disagree

Neutral

Somewhat

Agree

Agree

Strongly

Agree

Average Response

% That

Agree

The instructor communicated the goals and requirements of the course clearly and

explicitly.

5.3

80%

The instructor presented materials in an organized and well-planned manner.

6.0

93%

 

The instructor explained concepts clearly.

5.0

73%

The instructor provided a fair evaluation of the material covered in the course.

5.7

93%

The instructor was available for individual consultation, by appointment or stated office

hours.

5.2

64%

The instructor ensured that student work was graded

fairly with helpful comments and feedback where appropriate.

5.5

87%

The instructor ensured that student work was graded within a reasonable time.

6.5

100%

Overall, I was satisfied with the teaching abilities of the

instructor.

5.7

87%

I found this course to have an appropriate level of difficulty.

5.7

87%

The materials (i.e. textbook, reader, on-line materials) were relevant to the course.

5.5

73%

I was satisfied with the overall learning experience of

the course.

5.9

93%

My expected grade in this

course is

No Answer

< 49

50 - 59

60 - 69

70-79

80-89

90 >

5.6

87%

 

 

 

11.3.2  CESAR Course Evaluation CPCS106 Summer 2009

 

 


 

11.3.3  CESAR Course Evaluation CPCS211 Winter 2010

 

CESAR

·        Top of Form

PHYSICS: MECHANICS – BJ0 - Instructor: Pejovic, Stanislav
Semester: winter 2010
Day: Mon/Wed
Section: BJ0
Responses: 9
Actual: 9

Strongly Disagree

Disagree

Somewhat Disagree

Neutral

Somewhat Agree

Agree

Strongly Agree

Average Response

% That Agree

The instructor communicated the goals and requirements of the course clearly and explicitly.

0

0

0

1

1

2

5

6.2

89%

The instructor presented materials in an organized and well-planned manner.

0

0

0

1

0

4

4

6.2

89%

The instructor explained concepts clearly.

0

2

0

0

0

3

4

5.6

78%

The instructor provided a fair evaluation of the material covered in the course.

0

0

0

0

1

3

5

6.4

100%

The instructor was available for individual consultation, by appointment or stated office hours.

1

0

0

1

1

1

5

5.7

78%

The instructor ensured that student work was graded fairly with helpful comments and feedback where appropriate.

0

1

1

0

1

1

5

5.7

78%

The instructor ensured that student work was graded within a reasonable time.

0

0

0

0

0

1

8

6.9

100%

Overall, I was satisfied with the teaching abilities of the instructor.

1

0

1

0

0

2

5

5.7

78%

I found this course to have an appropriate level of difficulty.

0

0

0

2

2

1

4

5.8

78%

The materials (i.e. textbook, reader, on-line materials) were relevant to the course.

0

0

0

0

2

1

6

6.4

100%

I was satisfied with the overall learning experience of the course.

1

0

1

0

0

4

3

5.4

78%

My expected grade in this course is

No Answer
1

< 49
0

50 - 59
0

60 - 69
1

70-79
2

80-89
3

90 >
2

5.2

78%


 

 

 

 

11.3.4  CESAR Course Evaluation COCS120 Winter 2011

 

CESAR

Physics I – FJ0

Instructor: Pejovic, Stanislav
Semester: Winter 2011
Day: Tue/Thur
Section: FJ0
Responses: 21
Actual: 21

Strongly Disagree

Disagree

Somewhat Disagree

Neutral

Somewhat Agree

Agree

Strongly Agree

Average Response

% That Agree

The instructor communicated the goals and requirements of the course clearly and explicitly.

0

0

0

2

2

7

10

6.2

90%

The instructor presented materials in an organized and well-planned manner.

0

0

2

3

2

8

6

5.6

76%

The instructor explained concepts clearly.

0

3

1

3

6

5

3

4.9

67%

The instructor provided a fair evaluation of the material covered in the course.

0

0

0

0

2

12

7

6.2

100%

The instructor was available for individual consultation, by appointment or stated office hours.

0

0

1

6

1

7

6

5.5

67%

The instructor ensured that student work was graded fairly with helpful comments and feedback where appropriate.

0

1

0

2

3

7

8

5.9

86%

The instructor ensured that student work was graded within a reasonable time.

0

0

0

0

1

3

17

6.8

100%

Overall, I was satisfied with the teaching abilities of the instructor.

0

1

1

2

3

11

3

5.5

81%

I found this course to have an appropriate level of difficulty.

1

0

2

1

6

6

5

5.3

81%

The materials (i.e. textbook, reader, on-line materials) were relevant to the course.

0

0

1

0

1

7

12

6.4

95%

I was satisfied with the overall learning experience of the course.

0

2

1

0

3

10

5

5.6

86%

My expected grade in this course is

No Answer
2

< 49
0

50 - 59
0

60 - 69
4

70-79
3

80-89
8

90 >
4


 

 

11.3.5  CESAR Course Evaluation CPCS106 Summer 2011

 

CESAR

·         

Top of Form

PHYSICS FOR HEALTH SCIENCES – FA0Instructor: Pejovic, Stanislav
Semester: Summer 2011
Day: Tue/Thur
Section: FA0
Responses: 32
Actual: 32

Strongly Disagree

Disagree

Somewhat Disagree

Neutral

Somewhat Agree

Agree

Strongly Agree

Average Response

% That Agree

The instructor communicated the goals and requirements of the course clearly and explicitly.

2

1

1

1

5

8

14

5.7

84%

The instructor presented materials in an organized and well-planned manner.

2

0

1

1

6

9

13

5.8

88%

The instructor explained concepts clearly.

2

1

0

5

5

8

11

5.4

75%

The instructor provided a fair evaluation of the material covered in the course.

2

0

1

1

7

3

18

5.9

88%

The instructor was available for individual consultation, by appointment or stated office hours.

3

0

1

8

2

7

11

5.2

63%

The instructor ensured that student work was graded fairly with helpful comments and feedback where appropriate.

2

0

1

4

0

14

11

5.7

78%

The instructor ensured that student work was graded within a reasonable time.

1

1

0

1

2

8

19

6.2

91%

Overall, I was satisfied with the teaching abilities of the instructor.

3

1

1

2

1

10

14

5.6

78%

I found this course to have an appropriate level of difficulty.

1

0

2

4

4

13

8

5.5

78%

The materials (i.e. textbook, reader, on-line materials) were relevant to the course.

2

0

0

2

2

12

14

5.9

88%

I was satisfied with the overall learning experience of the course.

1

3

0

0

1

16

10

5.7

87%

My expected grade in this course is

No Answer
0

< 49
0

50 - 59
2

60 - 69
0

70-79
12

80-89
12

90


 

 

11.3.6    CESAR Course Evaluation CPCS106 Summer 2012  

 

 

PHYSICS FOR HEALTH SCIENCES – FA0

Instructor: Pejovic, Stanislav 

Semester: Summer 2012 

Day: Tue/Thur 

Section: FA0 

Responses: 13 

Actual: 13 

 

Strongly Disagree

Disagree

Somewhat

Disagree

Neutral

Somewhat

Agree

Agree

Strongly

Agree

Average Response

%

That

Agree

The instructor communicated the goals and

requirements of the course clearly and explicitly.

5.6

85%

The instructor presented materials in

5.7

85%

 

 

an organized and well-planned manner.

The instructor explained concepts

clearly.

5.1

77%

The instructor provided a fair

evaluation of the

material covered in the course.

6.2

92%

The instructor was available for individual consultation, by

appointment or stated office hours.

5.3

62%

The instructor ensured that student

work was graded fairly with helpful comments and

feedback where appropriate.

6.1

85%

The instructor ensured that student work was graded

within a reasonable

time.

6.4

92%

Overall, I was satisfied with the

teaching abilities of the instructor.

5.6

77%

I found this course to have an appropriate level of difficulty.

5.6

77%

The materials (i.e. textbook, reader, online materials) were relevant to the course.

6.0

92%

I was satisfied with the overall learning experience of the course.

5.6

77%

My expected grade in this course is

No

Answer

< 49

50 - 59

60 - 69

70-79

80-89

90 >

4.9

67%

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11.3.7    CESAR Course Evaluation CPCS106 Summer 2013 

 


 

12    PhD Certificate

13    PEO License (P.Eng.)




[1] Based on the model test result and analysis of hydraulic system in frequency domain some unknown phenomena of draft tube surges are discovered and explained in the article published in the journal. Pejovic S., Understanding the Effects of Draft Tube Vortex Core Resonance, Hydro Review Worldwide, HCI Publications, September 2000, pp. 28.

[2] On the same topic, the paper was presented on XXI IAHR [International Association for Hydraulic Research] Symposium on Hydraulic Machinery and Systems: Pejovic S., Troubleshooting of turbine vortex core resonance and air introduction into the draft tube, IAHR Symposium, Lausanne, Switzerland, 2002