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[Concept]: Thermalhydraulics Documents
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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: 70
1977-01-01---------Jump to [Top]
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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)
1978-04-01---------Jump to [Top]
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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)
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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)
1984-12-01---------Jump to [Top]
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Fluid Mechanics, Nuclear Training Course 223, December 1984, OPG, 1984-12-01. Doc type: Course.
Summary: These sections provide definitions and sample calculations for basic concepts such as pressure, density, flowrate, etc. and are NOT the same as the corresponding sections in the January 1977 version of 223.
Keywords: [Concept] Thermalhydraulics [SI] 31000 Reactor [Discipline] Mechanical Engineering [Topic] Fuel Management [Phase] Concept Design Design Analysis [Audience] College Engineer Ugrad
- Course Objectives 20040400.pdf (29 kb)
- Fluid Mechanics, 20040401.pdf (599 kb)
- Answer Section, 20040402.pdf (407 kb)
1987-06-01---------Jump to [Top]
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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)
1987-09-01---------Jump to [Top]
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Nuclear Journal of Canada, 1987 Vol 1 No. 3, by S. Banerjee, CNS-, 1987-09-01. Doc type: Paper.
Summary: The multifield model, in which separate sets of conservation equations are written for each phase, or clearly identifiable portion of a phase, is derived and explored.
Keywords: [Concept] Thermalhydraulics [SI] 03000 Engineering Science and Technology [Discipline] Mechanical Engineering [Topic] Basic Equations Modelling Thermalhydraulics [Phase] Design Analysis [Audience] Engineer Grad
- Multifield Methods for Nuclear Thermalhydraulics Problems NJC-1-3-04.pdf (1030 kb)
- CATHENA Simulation of Thermosiphoning in a Pressurized-Water Test Facility, by J.P. Mallory and P.J. Ingham, NJC-1-3-05.pdf (615 kb)
1996-02-01---------Jump to [Top]
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Reactor Thermalhydraulics Design, Course 2.1, by Wm.J. Garland, Chulalongkorn University, 1996-02-01. Doc type: Course.
Summary: This course is concerned with the thennalhydraulic design of the process systems that are required to transport heat energy away from the nuclear reactor source and transform this heat energy into useful work (generally electrical energy).
Keywords: [Concept] Thermalhydraulics [SI] 33100 Main Heat Transport System [Discipline] Nuclear Engineering [Topic] Basic Equations Important Parameters Process Systems Thermalhydraulics [Phase] Concept Design Design Analysis Design Evolution Design Process [Audience] Engineer Ugrad
- Title and Table of Contents 20043701.pdf (170 kb)
- Foreword and Glossary, by Wm.J. Garland, 20043702.pdf (74 kb)
- Chapter 1 - Introduction, by Wm.J. Garland, 20043703.pdf (130 kb)
- Chapter 2 - Design Requirements and Engineering Considerations, by Wm.J. Garland, 20043704.pdf (1189 kb)
- Chapter 3 - Heat Transport System Thermalhydrauilics, by Wm.J. Garland, 20043705.pdf (447 kb)
- Chapter 4 - Thermodynamics, by Wm.J. Garland, 20043706.pdf (309 kb)
- Chapter 5 - Fuel Coolant Heat Transfer, by Wm.J. Garland, 20043707.pdf (245 kb)
- Chapter 6 - Control, by Wm.J. Garland, 20043708.pdf (313 kb)
- Chapter 7 - The Design Process, by Wm.J. Garland, 20043709.pdf (419 kb)
- Chapter 8 - Process Design and Optimization, by Wm.J. Garland, 20043710.pdf (441 kb)
- Appendix 1 - Comparison of Bruce A, B, & Darlington, by Wm.J. Garland, 20043711.pdf (223 kb)
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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)
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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)
1998-02-01---------Jump to [Top]
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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)
2003-06-24---------Jump to [Top]
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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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