[Topic]: Fluid Mechanics Documents

Documents below are listed chronologically. Use the links on the left or below to filter documents by keyword. Use the links above to jump to a specific year on this page.

Number of files: 187

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1950-01-01---------Jump to [Top]

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1. Dyke, J.M. - Selected Works, by J.M. Dyke, Individual Contributions, 1950-01-01. Doc type: Essay.
   Summary: John M. Dyke B.A.Sc., P.Eng: John was involved in steam generator design for 35 years, from 1945 to 1980. He lead the design team for the Pickering A nuclear station in the mid 1960s. They were the first with internal economizer and integral steam drums. The 48 steam generators at this four-reactor station have had exemplary performance. John obtained his B.A.Sc. in Mechanical Engineering from the University of Toronto in 1943 and joined the Royal Canadian Navy Volunteer Reserve as an Engineering Officer posted with the Royal Navy doing convoy duty in the Atlantic and the Mediterranean. When he returned to Canada he worked at the Naval Research Establishment in Halifax developing anti-acoustic torpedo gear. Coincidentally, these were parallel rods that vibrated in water streams. After the war John did steam boiler engineering at several firms and became Chief Engineer of Dominion Bridge’s new boiler department in 1958. Here he attended a special course on nuclear design and submitted bids for early nuclear steam generators and reheaters. In 1964 he joined Babcock and Wilcox Canada, first as a project engineer on fossil-fired boilers and then to head up the new nuclear steam generating section where they developed a new 500 MWe design for Pickering A. He is a registered professional engineer with the province of Ontario. He has been honored by the American Society of Mechanical Engineering as a life member for outstanding lifetime achievement. The Canadian Nuclear Association also honored him with their Outstanding Contribution Award for designing the steam generators used in CANDU stations. John retired from BWC in 1980.
   Keywords: [Concept] - [SI] 36000 Steam Generator Steam and Water Systems [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermalhydraulics [Phase] Design Operation [Audience] Engineer Grad Manager Technician Ugrad
   - Introduction Dyke-intro.pdf (291 kb)

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1964-08-01---------Jump to [Top]

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2. Heat and Thermodynamics, Course 1-2.5, Nuclear Electric GS Technical Training Course, by D. Dueck, OPG, 1964-08-01. Doc type: Course.
   Summary: Basic concepts of thermodynamics
   Keywords: [Concept] Mechanical [SI] 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
   - Full course, sections 1 to 8. NEGS-TT1-2-5-1964.pdf (7809 kb)
3. Heat and Thermodynamics, Course 2-2.5, Nuclear Electric GS Technical Training Course, by D. Dueck, OPG, 1964-08-01. Doc type: Course.
   Summary: Basic concepts of thermodynamics
   Keywords: [Concept] Mechanical [SI] 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Concept Design Design Analysis [Audience] College Ugrad
   - Full course, sections 1 to 10. NEGS-TT2-2-5-1964.pdf (3387 kb)
4. Heat and Thermodynamics, Course 1-2.5, Nuclear Electric GS Technical Training Course, by D. Dueck, OPG, 1964-08-01. Doc type: Course.
   Summary: Basic concepts of thermodynamics
   Keywords: [Concept] Mechanical [SI] 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
   - Full course, sections 1 to 10. NEGS-TT3-2-5-1964.pdf (4826 kb)

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1964-11-01---------Jump to [Top]

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5. Turbine, Generator and Auxiliaries, Course 3-3.4, Nuclear Electric GS Technical Training Course, by D.Dueck, OPG, 1964-11-01. Doc type: Course.
   Summary:
   Keywords: [Concept] Mechanical [SI] 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Design Operation [Audience] College Engineer Technician Ugrad
   - Full course, sections 1 to 9 NEGS-TT3-3-4-1964.pdf (6102 kb)
6. Turbine, Generator and Auxiliaries, Course 4-3.4, Nuclear Electric GS Technical Training Course, by D.Dueck, OPG, 1964-11-01. Doc type: Course.
   Summary:
   Keywords: [Concept] - [SI] 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Design Operation [Audience] College Engineer Technician Ugrad
   - Full course, sections 1 to 7 NEGS-TT4-3-4-1964.pdf (2375 kb)

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1964-12-01---------Jump to [Top]

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7. Turbine, Generator and Auxiliaries, Course 2-3.4, Nuclear Electric GS Technical Training Course, by D.Dueck, OPG, 1964-12-01. Doc type: Course.
   Summary:
   Keywords: [Concept] - [SI] 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Design Operation [Audience] College Engineer Technician Ugrad
   - Full course, sections 1 to 10 NEGS-TT2-3-4-1964.pdf (7516 kb)

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1965-01-01---------Jump to [Top]

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8. Turbine, Generator and Auxiliaries, Course 1-3.4, Nuclear Electric GS Technical Training Course, by Dick Dueck, OPG, 1965-01-01. Doc type: Course.
   Summary:
   Keywords: [Concept] Mechanical [SI] 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Design Operation [Audience] College Engineer Technician Ugrad
   - Full course, sections 1 to 7 NEGS-TT1-3-4-1965.pdf (4837 kb)

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1966-07-01---------Jump to [Top]

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9. Heat and Thermodynamics, Course 1A25, Nuclear Training Course , by George Howie, OPG, 1966-07-01. Doc type: Course.
   Summary: Basic concepts of thermodynamics
   Keywords: [Concept] Heat and Thermodynamics [SI] 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
   - Full course, sections 1 to 10. OH-1A25-1966.pdf (5569 kb)

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1976-09-01---------Jump to [Top]

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10. Turbine, Generator and Auxiliaries, Course 134, Nuclear Training Centre, OPG, 1976-09-01. Doc type: Course.
    Summary:
    Keywords: [Concept] - [SI] 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Design Operation [Audience] College Engineer Technician Ugrad
    - Full Course 20051100.pdf (3779 kb)
    - 134.00-00 Index and Objectives, 20051101.pdf (355 kb)
    - 134.00-01 Turbine Theory, 20051102.pdf (793 kb)
    - 134.00-02 Turbine Operational Performance, 20051103.pdf (534 kb)
    - 134.00-03 Turbine Operational Problems, 20051104.pdf (554 kb)
    - 134.00-04 Turbine Start-Up, 20051105.pdf (365 kb)
    - 134.00-05 Factors Limiting Startup and Rates of Loading, 20051106.pdf (561 kb)
    - 134.00-06 Reliability and Testing Requirements, 20051107.pdf (253 kb)
    - 134.00-07 Maintenance, 20051108.pdf (404 kb)

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1977-01-01---------Jump to [Top]

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11. Fluid Mechanics, Nuclear Training Course 223, January 1977, OPG, 1977-01-01. Doc type: Course.
    Summary: Basic fluid mechanics concepts (viscosity, friction, water hammer, pipe flow, lubrication).
    Keywords: [Concept] Thermalhydraulics [SI] 31000 Reactor [Discipline] Mechanical Engineering [Topic] Fluid Mechanics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
    - Course Objectives 20040300.pdf (82 kb)
    - Force - Momentum, 20040306.pdf (90 kb)
    - Water Hammer, 20040307.pdf (226 kb)

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1978-04-01---------Jump to [Top]

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12. Fluid Mechanics, Nuclear Training Course 123, April 1978, OPG, 1978-04-01. Doc type: Course.
    Summary: Basic fluid mechanics concepts (viscosity, friction, water hammer, pipe flow, lubrication).  Note: Doc# 20040201 through to 20040205 are identical to OPG 223.00-1, rev January 1977 (see Doc# 20040301 through to 20040305
    Keywords: [Concept] Thermalhydraulics [SI] 31000 Reactor [Discipline] Mechanical Engineering [Topic] Fluid Mechanics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
    - Course Objectives 20040200.pdf (87 kb)
    - Parallel Pipe Flow, 20040206.pdf (202 kb)
    - Compressible Flow, 20040207.pdf (285 kb)
    - Water Hammer, 20040208.pdf (265 kb)
    - Hydrodynamic Film Lubrication, 20040209.pdf (562 kb)
13. Fluid Mechanics, Nuclear Training Course 223, January 1977, OPG, 1978-04-01. Doc type: Course.
    Summary:
    Keywords: [Concept] Thermalhydraulics [SI] 31000 Reactor [Discipline] Mechanical Engineering [Topic] Fluid Mechanics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
    - Viscosity 20040301.pdf (147 kb)
    - Reynolds' Number, 20040302.pdf (105 kb)
    - Friction in Fluid Flow, 20040303.pdf (301 kb)
    - Minor Losses, 20040304.pdf (213 kb)
    - Pipe Flow Problems, 20040305.pdf (132 kb)
    - Appendix, 20040308.pdf (489 kb)

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1981-04-01---------Jump to [Top]

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14. Thermal-Hydraulics in Recirculating Steam Generators: Thirst Code User's Manual, by M.B. Carver, AECL, 1981-04-01. Doc type: Report.
    Summary: THIRST is for modeling ThermalHydraulics In Recirculating Steam generators. This manual gives complete details of the mathematical derivation and numerical solution of the 3D, 2Phase thermalhydraulic equilibrium conservation equations inside a reactor boiler and also explains the many constitutive correlations required. Finally the manual fully defines the immense amount of input detail required to model the primary side heat transfer and the secondary side water boiling and recirculating in the complex tube-in-shell geometry of a prototypical CANDU steam generator.
    Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 36000 Steam Generator Steam and Water Systems [Discipline] Mathematics#Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Modelling Process Systems Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
    - AECL 7254, April 1981 THIRSTusersR43667.pdf (2290 kb)

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1981-11-01---------Jump to [Top]

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15. Heat and Thermodynamics, Course 125, Nuclear Training Centre, OPG, 1981-11-01. Doc type: Course.
    Summary: Basic concepts of heat and thermodynamics: steam tables, Mollier diagrams, turbine, feedheater, condenser, steam generator, reactor.
    Keywords: [Concept] Heat and Thermodynamics [SI] 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermalhydraulics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
    - Full Course 20050100.pdf (6328 kb)
    - Module B.7 Course Procedures, 20050101.pdf (302 kb)
    - Module B.6 Basics, 20050102.pdf (339 kb)
    - Module B.5 Steam Tables, 20050103.pdf (740 kb)
    - Module B.4.2 Entropy, Throttling and Molier Diagram, 20050104.pdf (904 kb)
    - Module B.4.1 Turbine With Reheat, 20050105.pdf (684 kb)
    - Module B.3.2 Feedheater Operation, 20050106.pdf (569 kb)
    - Module B.3.1 Condenser Performance, 20050107.pdf (594 kb)
    - Module B.2 Steam Generator, 20050108.pdf (477 kb)
    - Module B.1 Reactor, 20050109.pdf (826 kb)
    - B.6 Self Evaluation, 20050110.pdf (87 kb)
    - B.5 Self Evaluation, 20050111.pdf (69 kb)
    - B.4.2 Self Evaluation, 20050112.pdf (118 kb)
    - B.4.1 Self Evaluation, 20050113.pdf (103 kb)
    - B.3.2 Self Evaluation, 20050114.pdf (121 kb)
    - B.3.1 Self Evaluation, 20050115.pdf (118 kb)
    - B.2 Self Evaluation, 20050116.pdf (137 kb)
    - B.1 Self Evaluation, 20050117.pdf (102 kb)
    - Criterion Tests, 20050118.pdf (134 kb)

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1984-03-01---------Jump to [Top]

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16. Heat and Thermodynamics, Course PI 25, Nuclear Training Centre, OPG, 1984-03-01. Doc type: Course.
    Summary: Basic concepts of heat and thermodynamics: expansion and contraction, heat transfer, pressure control, Mollier diagrams, efficiency, the CANDU cycle.
    Keywords: [Concept] Heat and Thermodynamics [SI] 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermalhydraulics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
    - Full Course 20050200.pdf (3028 kb)
    - 25-0 Introduction and Course Procedures, 20050201.pdf (336 kb)
    - 25-1 Basics, 20050202.pdf (471 kb)
    - 25-2 Expansion and Contraction, 20050203.pdf (351 kb)
    - 25-3 Heat Transfer Calculations, 20050204.pdf (183 kb)
    - 25-4 Pressure Control, 20050205.pdf (200 kb)
    - 25-5 Mechanisms of Heat Transfer, 20050206.pdf (144 kb)
    - 25-6 Mollier Diagrams and The Turbine Process, 20050207.pdf (679 kb)
    - 25-7 Efficiency and The CANDU Cycle, 20050208.pdf (298 kb)
    - 25-8 Criterion Tests, 20050209.pdf (105 kb)
    - 25-9 Self Evaluation Answer Sheet, 20050210.pdf (309 kb)

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1987-06-01---------Jump to [Top]

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17. Nuclear Journal of Canada, 1987 Vol 1 No. 2, by M.B. Carver, R.A. Judd, J.E. Kiteley, and A. Tahir, CNS-, 1987-06-01. Doc type: Paper.
    Summary: The ASSERT subchannel code has been developed specifically to model flow and phase distributions within CANDU fuel bundles. ASSERT uses a drift-flux model that permits the phases to have unequal velocities, and can thus model phase separation tendencies that may occur in horizontal flow. The basic principles of ASSERT are outlined, and computed results are compared against data from various experiments for validation purposes. The paper concludes with an example of the use of the code to predict critical heat flux in CANDU geometries.
    Keywords: [Concept] Thermalhydraulics [SI] 33100 Main Heat Transport System [Discipline] Mechanical Engineering Nuclear Engineering [Topic] Fluid Mechanics [Phase] Design Analysis [Audience] Engineer Grad Ugrad
    - The Drift Flux Model in the ASSERTSubchannel Code NJC-1-2-08.pdf (742 kb)

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1988-04-01---------Jump to [Top]

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18. Heat and Thermodynamics, Course 225, Nuclear Training Centre, OPG, 1988-04-01. Doc type: Course.
    Summary: Basic concepts of heat and thermodynamics: steam tables, Mollier diagrams, turbine with reheat, feedheater, condenser, steam generator, reactor.
    Keywords: [Concept] Heat and Thermodynamics [SI] 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermalhydraulics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
    - Full Course 20043100.pdf (4667 kb)
    - Index, 20043101.pdf (208 kb)
    - Module 1 Basics, 20043102.pdf (404 kb)
    - Module 2 Steam Tables, 20043103.pdf (636 kb)
    - Module 3 Entropy, Throttling and Mollier Diagrams, 20043104.pdf (701 kb)
    - Module 4 Turbine with Reheat, 20043105.pdf (611 kb)
    - Module 5 Feedheater Operation, 20043106.pdf (511 kb)
    - Module 6 Condenser Performance, 20043107.pdf (546 kb)
    - Module 7 Steam Generator, 20043108.pdf (382 kb)
    - Module 8 Reactor, 20043109.pdf (710 kb)

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1990-01-01---------Jump to [Top]

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19. Mechanical Equipment, Course PI 30.1, Nuclear Training Centre, OPG, 1990-01-01. Doc type: Course.
    Summary:
    Keywords: [Concept] - [SI] 03200 Mechanical Engineering [Discipline] Mechanical Engineering [Topic] Fluid Mechanics [Phase] Concept Design Operation [Audience] College Engineer Technician Ugrad
    - Full Course 20043200.pdf (5736 kb)
    - PI 30.10-0 Introduction and Objectives, 20043201.pdf (392 kb)
    - 430.10-0 Identification and Coding of Mechanical Equipment, 20043202.pdf (251 kb)
    - 430.10-1 Centrifugal Pumps, 20043203.pdf (379 kb)
    - 330.10-1 Centrifugal Pumps, 20043204.pdf (795 kb)
    - 430.10-2 Positive Displacement Pumps, 20043205.pdf (168 kb)
    - 430.10-3 Compressonrs - Dynamic and Positive Displacement, 20043206.pdf (270 kb)
    - 430.10-4 Air System, 20043207.pdf (82 kb)
    - 430.10-5 Fans, 20043208.pdf (57 kb)
    - 430.10-6 Vacuum Pumps, 20043209.pdf (185 kb)
    - 230.11-1 Compressors, 20043210.pdf (226 kb)
    - 330.11-1 Heat Exchangers, 20043211.pdf (218 kb)
    - 430.12-1 Piping and Tubes, 20043212.pdf (271 kb)
    - 430.13-1 Valves, 20043213.pdf (513 kb)
    - 430.14-1 Lubrification, 20043214.pdf (143 kb)
    - 430.14-2 Unit 1 Bearings, 20043215.pdf (68 kb)
    - 430.14-2 Unit 2 Lubrification Methods, 20043216.pdf (62 kb)
    - 430.14-2 Unit 3 Bearing Design and Installation, 20043217.pdf (81 kb)
    - 230.12-1 Lubrification, 20043218.pdf (250 kb)
    - 430.15-1 Sealing Devices, 20043219.pdf (181 kb)
    - 330.14-1 Axial Mechanical Seals, 20043220.pdf (190 kb)
    - 230.13-1 Shaft Couplings, 20043221.pdf (204 kb)
    - 230.13-2 Belt Drives, 20043222.pdf (247 kb)
    - 230.13-3 Chain Drives, 20043223.pdf (115 kb)
    - 230.13-4 Gears and Gearing, 20043224.pdf (250 kb)
    - 230.16-1 Gas Turbines, 20043225.pdf (289 kb)
20. Turbine and Auxiliaries, Course PI 34 / TIMS Ref. PI 3004, Nuclear Training Centre, OPG, 1990-01-01. Doc type: Course.
    Summary:
    Keywords: [Concept] - [SI] 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Design Operation [Audience] College Engineer Technician Ugrad
    - Full Course 20051000.pdf (11938 kb)
    - PI 34.00-00 Index and Objectives, 20051001.pdf (619 kb)
    - 334.00-01 The Steam Turbine, 20051002.pdf (676 kb)
    - 234.00-01 Turbine Construction, 20051003.pdf (1037 kb)
    - 334.00-03 The Steam System, 20051004.pdf (517 kb)
    - 234.00-02 Steam Control to the Turbine, 20051005.pdf (514 kb)
    - 334.00-07 The Condenser, 20051006.pdf (476 kb)
    - PI 25-06 The Mollier Diagram and the Turbine Processes, 20051007.pdf (1214 kb)
    - 334.00-08 Feedwater Heating System -1, 20051008.pdf (212 kb)
    - 334.00-09 Feedwater Heating System -2, 20051009.pdf (307 kb)
    - 234.00-07 Feedwater Control and Operation, 20051010.pdf (586 kb)
    - PI 24.21-01 Secondary Heat Transport System - Impurities, 20051011.pdf (230 kb)
    - PI 24.21-02 Chemical Additives and Blowdown, 20051012.pdf (274 kb)
    - PI 25-07 Efficiency of the CANDU Turbine Cycle, 20051013.pdf (513 kb)
    - 234.00-03 Steam Valve Hydraulic Control, 20051014.pdf (255 kb)
    - 234.00-04 Governor Operation, 20051015.pdf (516 kb)
    - 234.00-05 Turbine Governors, 20051016.pdf (677 kb)
    - 334.00-10 The Lubricating Oil System, 20051017.pdf (275 kb)
    - 334.00-11 The Turning Gear, 20051018.pdf (113 kb)
    - 234.00-06 Turbine Operational Problems, 20051019.pdf (568 kb)
    - 234.00-08 Factors Limiting Startup and Rates of Loading, 20051020.pdf (887 kb)
    - 334.00-13 appendix 1 Ontario Hydro Nuclear Turbine Types, 20051021.pdf (245 kb)

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1993-01-01---------Jump to [Top]

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21. Principes de Science et de Fonctionnement des Réacteurs - Chaleur et Thermodynamique, CNSC, 1993-01-01. Doc type: Course.
    Summary:
    Keywords: [Concept] Heat and Thermodynamics [SI] 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermalhydraulics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
    - Chaleur et Thermodynamique 20070900.pdf (850 kb)

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1994-07-01---------Jump to [Top]

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22. Turbine and Auxiliaries, Nuclear Training Course 234, OPG, 1994-07-01. Doc type: Course.
    Summary:
    Keywords: [Concept] - [SI] 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermodynamics [Phase] Design Operation [Audience] College Engineer Technician Ugrad
    - Module 234-00 Introduction to the Course 20042400.pdf (182 kb)
    - Module 234-01 The Steam Turbine, 20042401.pdf (760 kb)
    - Module 234-02 The Boiler, 20042402.pdf (851 kb)
    - Module 234-03 The Main Steam System, 20042403.pdf (1399 kb)
    - Module 234-04 Auxiliary Steam Systems, 20042404.pdf (684 kb)
    - Module 234-05 The Condenser and its Auxiliary Systems, 20042405.pdf (1091 kb)
    - Module 234-06 The Condensate, the Boiler Feed and Their Auxiliary Systems, 20042406.pdf (1736 kb)
    - Module 234-07 The Turbine Governing System, 20042407.pdf (724 kb)
    - Module 234-08 The Turbine Supervisory System, 20042408.pdf (273 kb)
    - Module 234-09 The Turning Gear, 20042409.pdf (305 kb)
    - Module 234-10 The Turbine Lubricating System, 20042410.pdf (503 kb)
    - Module 234-11 Startup and Loading, 20042411.pdf (1220 kb)
    - Module 234-12 Unloading and Shutdown, 20042412.pdf (333 kb)
    - Module 234-13 Special Modes of Operation and Accidents, 20042413.pdf (895 kb)
    - Module 234-14 Turbine Operational Problems, 20042414.pdf (850 kb)

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1994-09-01---------Jump to [Top]

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23. Mechanical Equipment, Course 23001, OPG, 1994-09-01. Doc type: Course.
    Summary:
    Keywords: [Concept] - [SI] 03200 Mechanical Engineering [Discipline] Mechanical Engineering [Topic] Fluid Mechanics [Phase] Concept Design Operation [Audience] College Engineer Technician Ugrad
    - Full Course 20042800.pdf (1261 kb)
    - Intro and Table of Contents, 20042801.pdf (44 kb)
    - Module 1 Centrifugal Pumps and Systems, 20042802.pdf (1034 kb)
    - Module 2 Positive Displacement Compressor Operation, 20042803.pdf (194 kb)

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1996-02-01---------Jump to [Top]

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24. Thermal Study of Nuclear Reactors, Course 2.2, by A. Tapucu, Chulalongkorn University, 1996-02-01. Doc type: Course.
    Summary:
    Keywords: [Concept] Thermalhydraulics [SI] 33100 Main Heat Transport System [Discipline] Mechanical Engineering [Topic] Basic Equations Fluid Mechanics Thermalhydraulics [Phase] Design Design Analysis [Audience] Engineer Grad Ugrad
    - Title and Table of Contents 20043801.pdf (96 kb)
    - Chapter 1 - Fundamental Concepts, by A. Tapucu, 20043802.pdf (234 kb)
    - Chapter 2 - Single Phase Fluid Equations, by A. Tapucu, 20043803.pdf (200 kb)
    - Chapter 3 - Principles of Heat Transfer, by A. Tapucu, 20043804.pdf (1061 kb)
    - Chapter 4 - Forced Convection Heat Transfer, by A. Tapucu, 20043805.pdf (1624 kb)
    - Chapter 7 - Heat Removal from Nuclear Reactors, by A. Tapucu, 20043806.pdf (1557 kb)
    - Appendix 1 - Tensors, by A. Tapucu, 20043807.pdf (49 kb)
    - Appendix 2 - Stress in a Fluid, by A. Tapucu, 20043808.pdf (256 kb)
    - Appendix 3 - A Short Summary of Orthogonal Functions Used in Chapter 4, by A. Tapucu, 20043809.pdf (178 kb)
    - Workbook, Chapter 4, by A. Tapucu, 20043810.pdf (2301 kb)
    - Workbook, Chapter 7, by A. Tapucu, 20043811.pdf (2043 kb)
25. Reactor Thermalhydraulics Analysis, Course 2.3, by Wm.J. Garland, Chulalongkorn University, 1996-02-01. Doc type: Course.
    Summary: Fundamentals of thermalhydraulic analysis (heat transfer and fluid mechanics)of the heat transport system.
    Keywords: [Concept] Thermalhydraulics [SI] 33100 Main Heat Transport System [Discipline] Mechanical Engineering [Topic] Basic Equations Fluid Mechanics Thermalhydraulics [Phase] Concept Design Design Analysis [Audience] Engineer Grad Ugrad
    - Title and Table of Contents 20043901.pdf (144 kb)
    - Glossary and Foreword, by Wm.J. Garland, 20043902.pdf (152 kb)
    - Chapter 1 - Course Overview, by Wm.J. Garland, 20043903.pdf (140 kb)
    - Chapter 2 - Basic Equations for Thermalhydraulic Systems Analysis, by Wm.J. Garland, 20043904.pdf (561 kb)
    - Chapter 3 - Nodalization, by Wm.J. Garland, 20043905.pdf (303 kb)
    - Chapter 4 - Equation of State, by Wm.J. Garland, 20043906.pdf (338 kb)
    - Chapter 5 - The Rate Form of the Equation of State, by Wm.J. Garland, 20043907.pdf (512 kb)
    - Chapter 6 - Thermalhydraulic Network Simulation, by Wm.J. Garland, 20043908.pdf (343 kb)
    - Chapter 7 - Empirical Correlations, by Wm.J. Garland, 20043909.pdf (532 kb)
    - Chapter 8 - On Design Tools, by Wm.J. Garland, 20043910.pdf (481 kb)
    - Workbook, Chapter 1, by Wm.J. Garland, 20043911.pdf (151 kb)
    - Workbook Chapter, 2, by Wm.J. Garland, 20043912.pdf (767 kb)
    - Workbook Chapter 3, by Wm.J. Garland, 20043913.pdf (466 kb)
    - Workbook Chapter 4, by Wm.J. Garland, 20043914.pdf (604 kb)
    - Workbook Chapter 5, by Wm.J. Garland, 20043915.pdf (847 kb)
    - Workbook Chapter 6, by Wm.J. Garland, 20043916.pdf (614 kb)
    - Workbook Chapter 7, by Wm.J. Garland, 20043917.pdf (719 kb)
    - Workbook Chapter 8, by Wm.J. Garland, 20043918.pdf (903 kb)
    - Workbook Figures, by Wm.J. Garland, 20043919.pdf (509 kb)

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1998-02-01---------Jump to [Top]

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26. Reactor Thermalhydraulics Analysis, Supplementary, Course 2.3a, by Wm.J. Garland, Chulalongkorn University, 1998-02-01. Doc type: Course.
    Summary: Supplementary info for thermalhydraulic analysis (heat transfer and fluid mechanics)of the heat transport system.
    Keywords: [Concept] Thermalhydraulics [SI] 33100 Main Heat Transport System [Discipline] Mechanical Engineering [Topic] Basic Equations Fluid Mechanics Thermalhydraulics [Phase] Concept Design Design Analysis [Audience] Engineer Grad Ugrad
    - Appendices 1 - 4 1 - Time Derivatives 2 - The Reynolds Transport Theorem 3 - Rearrangement of Independent Variables 4 - Fast Calculation of Light-Water Properties 20044001.pdf (647 kb)
    - Calculation of Water Properties, by Wm.J. Garland, 20044002.pdf (947 kb)
    - THSIM User Manual, by Wm.J. Garland, 20044003.pdf (733 kb)
    - A Pedagogical Look at Fully- and Semi-Implicit Solutions to T-H Eq'ns, by Wm.J. Garland, 20044004.pdf (320 kb)
    - Basic Equations for T-H Systems Analysis, by Wm.J. Garland, 20044005.pdf (590 kb)
    - Miscellaneous Figures and Equations, by Wm.J. Garland, 20044006.pdf (315 kb)

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1999-02-23---------Jump to [Top]

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27. Single Phase Friction Factors for MNR Thermalhydraulic Modelling, by Wm.J. Garland, McMaster University, 1999-02-23. Doc type: Other.
    Summary: This report documents a review of selected literature to determine the appropriate correlations to use for McMaster Nuclear Reactor safety analysis.  It was found that the standard Moody diagram (which is based on the transcendental Colebrook equation) is sufficiently accurate for pipe flow but problematic to program, whereas simple approximations do not account for pipe wall roughness.  Herein, a very simple function is offered that returns an accurate estimate of f as a function of Reynolds Number, Re, and relative roughness e/D in a non-iterative fashion.  In addition, a simple correction factor for channel flow is offered.
    Keywords: [Concept] - [SI] 03200 Mechanical Engineering; #33000 Primary Heat Transport System [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Modelling [Phase] Concept; #Design [Audience] College; #Engineer; #Grad; #Technician; #Ugrad
    - 1phase1.xls (552 kb)

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2002-01-01---------Jump to [Top]

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28. Heat and Thermodynamics Course, CNSC, 2002-01-01. Doc type: Course.
    Summary: This module covers the following areas pertaining to thermodynamics: Introduction, Heat and Thermodynamics - The Basics, Reactor and Heat Transport System Normal Operation, Heat Transport System Component Operation
    Keywords: [Concept] Heat and Thermodynamics [SI] 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries [Discipline] Mechanical Engineering [Topic] Fluid Mechanics Heat Transfer Thermalhydraulics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
    - Cover Page 20030900.pdf (83 kb)
    - , 20030901.pdf (647 kb)
    - Presentation, 20030902.pdf (1557 kb)

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2003-06-24---------Jump to [Top]

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29. Fluid Mechanics, CNSC, 2003-06-24. Doc type: Course.
    Summary:
    Keywords: [Concept] Thermalhydraulics [SI] 31000 Reactor [Discipline] Mechanical Engineering [Topic] Fluid Mechanics [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
    - Presentation 20040602.pdf (610 kb)
    - , 20040601.pdf (353 kb)
    - , 20070300.pdf (336 kb)

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2015-01-01---------Jump to [Top]

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30. The Essential CANDU, by Wm.J. Garland, Editor-in-Chief, UNENE, 2015-01-01. Doc type: Book.
    Summary: The Essential CANDU is a textbook about nuclear science and engineering pertaining to CANDU reactors using CANDU as the reference design. This distinguishes it from comparable textbooks based on PWR reactors. This is not a product description of CANDU per se. The book emphasizes theory over other aspects of nuclear science. This is a textbook about CANDU nuclear reactor and power plant engineering, not just the reactor physics of the core.
    Keywords: [Concept] General [SI] 30000 Reactor, Steam Generators and Auxiliaries 35000 Fuel Transfer and Storage 36000 Steam Generator Steam and Water Systems 37000 Fuel 40000 Turbine, Generator and Auxiliaries 60000 Instrumentation and Control [Discipline] Chemistry General Engineering Health Physics Nuclear Engineering [Topic] Corrosion Fluid Mechanics Fuel Management Heat Transfer Important Parameters Physical Description Process Systems Radiation Reactor Physics Safety Thermalhydraulics Thermodynamics Waste Handling [Phase] Design Design Analysis Design Description Design Evolution Safety Safety Analysis [Audience] Engineer Grad Ugrad
    - A textbook on the CANDU nuclear power plant technology. press_release-Jan2016.pdf (382 kb)

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2017-12-27---------Jump to [Top]

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31. Canada's Power Reactor Fuel Bundle Design and Development, by R.D. Page and A.J. Langdon, AECL, 2017-12-27. Doc type: Other.
    Summary: This pictorial record of Canada's power reactor fuel bundles was prepared to historically record the evolution of the power reactor fuel over the years. No one report issued over the years has been able to describe in detail the various changes that these pictures portray. It should be noted that the record does not include WR-1 type fuel or special irradiation of assemblies. "A picture speaks a thousand words". Full resolution versions of the images contained in this document can be found in the Image Library of CANTEACH web site http://canteach.candu.org listed under the System Index (SI) 37000 - Fuel.
    Keywords: [Concept] - [SI] 37000 Fuel [Discipline] Materials Engineering Mechanical Engineering [Topic] Chemistry Fluid Mechanics Heat Transfer Physical Description Thermalhydraulics [Phase] Concept Design Design Evolution [Audience] College Engineer Grad High Manager Technician Ugrad
    - Historical and Pictorial Record FuelStory.pdf (355 kb)