[Topic]: Process Systems 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: 144
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Simulation Software, by Wm.J. Garland, McMaster University, 1950-01-01. Doc type: Essay.
Summary: Major endeavours such as a CANDU nuclear power plant involves extensive engineering calculations usually performed using large simulation tools. However, to aid in conceptual BOE (back of envelope) evaluations and for education and training exercises, simplified and focused calculations are often done. To aid students and working professional alike, a few such small tools (primarily spreadsheets) are linked below. Go to Topics: Modelling to see the full list.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 30000 Reactor Steam Generators and Auxiliaries [Discipline] General Engineering Mechanical Engineering Nuclear Engineering [Topic] Basic Equations Conceptual Heat Transfer Modelling Process Systems Reactor Physics Thermalhydraulics [Phase] Concept Design Analysis [Audience] College Engineer Grad Technician Ugrad
- SimulationSoftware.pdf (267 kb) -
NPD-2 Design Description, OPG, 1958-09-01. Doc type: Report.
Summary: This booklet presents a detailed design description of the NPD-2 station, a joint project of AECL, CGE and the Hydro-Electric Power Commission of Ontario.
Keywords: [Concept] General [SI] 00000 General Project 30000 Reactor, Steam Generators and Auxiliaries 37000 Fuel 40000 Turbine, Generator and Auxiliaries 60000 Instrumentation and Control [Discipline] Nuclear Engineering [Topic] Intro and Overview Physical Description Process Systems [Phase] Design Description [Audience] College Engineer High Technician Ugrad
- Canada's First Nuclear Power Station CGE-NPD-DD-Sept1958.pdf (2766 kb) -
NDP-2 Systems - Calandria Assembly, Course T.T.01-312, OPG, 1961-04-01. Doc type: Course.
Summary:
Keywords: [Concept] - [SI] 31000 Reactor [Discipline] Mechanical Engineering Nuclear Engineering [Topic] Heavy Water Physical Description Process Systems [Phase] Design [Audience] College Engineer Technician Ugrad
- NPD-TT01-312-1961.pdf (2972 kb) -
NPD, a Description of, by J.L Olsen, OPG, 1961-09-18. Doc type: Presentation.
Summary: Nuclear Power Demonstration. An illustrated talk presented at the Seventh AECL Symposium on Atomic Energy, Chalk River, September 18, 1961.
Keywords: [Concept] General [SI] 00000 General Project 30000 Reactor, Steam Generators and Auxiliaries 37000 Fuel 40000 Turbine, Generator and Auxiliaries 60000 Instrumentation and Control [Discipline] Nuclear Engineering [Topic] Intro and Overview Physical Description Process Systems [Phase] Design Description [Audience] College Engineer High Technician Ugrad
- Canada's First Nuclear Power Station CAPD10--Sept1961NPD-Description.pdf (5637 kb) -
NDP Systems - Reactor Boiler Control, Course T.T.0-5.637.1, by S.G. Horton, OPG, 1965-01-01. Doc type: Course.
Summary:
Keywords: [Concept] Electrical, Instrumentation & Control [SI] 60000 Instrumentation and Control [Discipline] Electrical Engineering [Topic] Basic Equations Physical Description Process Systems [Phase] Concept Design Operation [Audience] College Engineer Technician Ugrad
- Reactor Boiler Regulating System NPD-TT-0-5-637-1-1965.pdf (1542 kb) -
NPD Systems - Fuel Handling System, Course 053, by Staff, OPG, 1968-01-01. Doc type: Course.
Summary: This manual is issued as an indoctrination course on the N.P.D. Fuel Handling System. The successful completion of the course and examinations will, however, be required as partial N04, NC4 or NM4 qualifications.
Keywords: [Concept] Mechanical [SI] 35000 Fuel Transfer and Storage [Discipline] Mechanical Engineering [Topic] Fuel Management Physical Description Process Systems [Phase] Design Operation [Audience] College Engineer Technician Ugrad
- Reactor Boiler and Auxiliaries Fuel Handling System NPD053-352.pdf (11616 kb) -
Pickering Generating Station Design Description, OPG, 1969-01-01. Doc type: Report.
Summary:
Keywords: [Concept] Overview [SI] 00000 General Project 10000 Site and Improvements 20000 Buildings and Structures 30000 Reactor, Steam Generators and Auxiliaries 40000 Turbine, Generator and Auxiliaries 50000 Electric Power Systems 60000 Instrumentation and Control [Discipline] General Engineering Nuclear Engineering [Topic] Intro and Overview Physical Description Process Systems [Phase] Design Operation Safety [Audience] College Engineer Technician Ugrad
- OH-PickeringDD1969.pdf (23589 kb) -
The Effect of Bypass Characteristics on Parallel Channel Flow Instabilities, by M.B. Carver, AECL, 1969-01-02. Doc type: Paper.
Summary: This article is definitive because nobody could figure out why all the instability codes gave stability thresholds well below the measured threshold power in the experiments done at Canadian Westinghouse. The paper determines analytically that this is because the small bypass stabilized the experimental system as it could not maintain a constant pressure drop, which all the codes assumed at step 1.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 33100 Main Heat Transport System [Discipline] Mathematics Mechanical Engineering [Topic] Basic Equations Collections Conceptual Modelling Process Systems Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
- Proceedings of the Institution of Mechanical Engineers, Volume 184, 1969 BYPASS PIME_CONF_1969_184_083_02.pdf (703 kb) -
AECL Lectures on Nuclear Power Symposium, by G.A. Pon, AECL, 1972-05-25. Doc type: Course.
Summary:
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology [Discipline] Nuclear Engineering [Topic] Conceptual Function Intro and Overview Process Systems [Phase] Concept Design Design Analysis Safety Safety Analysis [Audience] College Engineer Ugrad
- Lecture 1 - Introduction 19720101.pdf (1091 kb)
- Lecture 2 - Radiation, by G. Cowper, 19720102.pdf (1025 kb)
- Lecture 3 - Power Reactor Types, by Gordon L. Brooks, 19720103.pdf (3378 kb)
- Lecture 4 - Reactor Physics, by E. Critoph, 19720104.pdf (1755 kb)
- Lecture 5 - Canadian Reactor Fuel, by R.D. Page, 19720105.pdf (3924 kb)
- Lecture 8 - System Analysis, by D.B. Primeau, 19720108.pdf (1770 kb)
- Lecture 9 - Reactor and Station Control, by E.M. Yaremy, 19720109.pdf (2715 kb)
- Lecture 10 - Plant Layout, by R.B.V. Simmons, 19720110.pdf (3190 kb)
- Lecture 11 - Accident Analysis, by J.D. Sainsbury, 19720111.pdf (1418 kb)
- Lecture 12 - Licensing, by L. Pease, 19720112.pdf (1755 kb)
- Lecture 13 - Training, by G.R. Howey, 19720113.pdf (1432 kb)
- Lecture 14 - Canadian Power Reactor Fuel. See AECL 5609 doc#19760101 for an updated version., by R.D. Page, 19720114.pdf (2844 kb)
- Lecture 15 - Construction, by V.A. Harrison, 19720115.pdf (3542 kb)
- Lecture 16 - Costs, by D.L.S. Bate, 19720116.pdf (764 kb)
- Lecture 17 - Development Potential, by W.B. Lewis, 19720117.pdf (1390 kb)
- Lectures 6 and 7 - Heat Transport and Auxiliary Systems, by R.H. Renshaw, 19720167.pdf (2431 kb) -
FORSIM a FORTRAN Oriented Simulation Package for the Automated Solution of Partial and Ordinary partial Differential Equation SYSTEMS, by M.B. Carver, AECL, 1975-07-01. Doc type: Report.
Summary: FORSIM was Mike's vehicle for all the work he did in PDEs/ODEs including stiff equation solvers, reactor kinetics and mass action chemical kinetics, sparse matrix approximation to the Jacobian, integration over discontinuities, and parameter identification. In about a dozen PPV papers. FORSIM started as just an ODE simulator to replace MIMIC for the AECL Sheridan Park engineers.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 30000 Reactor, Steam Generators and Auxiliaries 32000 Moderator System 33000 Primary Heat Transport System 36000 Steam Generator Steam and Water Systems [Discipline] Mathematics Mechanical Engineering [Topic] Basic Equations Collections Modelling Process Systems Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
- AECL 4608, November 1973 FORSIM_AECL4608.pdf (538 kb) -
Efficient Integration over Discontinuities in Ordinary Differential Equation Simulation, by M.B. Carver, AECL, 1978-01-01. Doc type: Paper.
Summary: Efficient integration algorithms for ordinary differential equations take integration steps that are as large as the error control criteria permit. Events or discontinuities in equation definition are often implicitly defined to occur when a variable reaches a critical value, for example a fuel rod surface reaching saturation temperature, and this requires the integrator to basically restart the calculation precisely at the point of change. Instead integrators will "hunt" for the discontinuity wasting a lot of computer time, and will eventually "step over" the discontinuity using integration points either side of the event. This paper shows that if the discontinuity is defined and monitored as an additional part of the equation set, such a restart can be optimized, thus ensuring that the event will be defined as an integration restart point.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 33100 Main Heat Transport System 36000 Steam Generator Steam and Water Systems [Discipline] Mathematics#Mechanical Engineering [Topic] Modelling Process Systems Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
- Mathematics and Computers in Simulation, XX, 1978 efficient-integration-over-discontinuities-in-ordinary-differential-equation.pdf (467 kb) -
The method of lines and the advective equation, by M.B. Carver and H.W. Hinds, AECL, 1978-08-01. Doc type: Paper.
Summary: This article showed that the common approach of first order differencing, used in almost all thermalhydraulic computer programs, would not properly solve the simplest hyperbolic PDE on the market. Despite the errata, it is Carver's most cited publication and laid the foundations for many higher order analyses by others, and Carver's pseudo-characteristic method of lines (PCMOL) solution of the thermalhydraulic conservation equations.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 33100 Main Heat Transport System 36000 Steam Generator Steam and Water Systems [Discipline] Mathematics#Mechanical Engineering [Topic] Basic Equations Modelling Process Systems Thermalhydraulics [Phase] Concept Design Analysis Safety Analysis [Audience] Engineer Grad
- Simulation, August,1978. Also published as AECL 6155 AdvectiveEqn.pdf (804 kb) -
Pseudo-characteristic method of lines solution of first-order hyperbolic equation systems, by M.B. Carver, AECL, 1980-01-01. Doc type: Paper.
Summary: This paper introduced a new concept, pseudo-characteristics, which allows the directionality dictated by the method of characteristics to be applied on a fixed grid basis. This is the method that N.P. Kolev Nuclear Institute of Bulgaria and M. B. Carver used to apply to the EVUT form of the thermalhydraulic conservation equations at the OECD/CSNI conference on two phase flow, Pasedena, 1981. In this MACS paper, discretization of the PDEs is discussed, using higher order upwind biased derivatives of each of the Lagrange polynomials and the Hermite polynomials. Results are shown for incompressible flow in a hydraulic jump and for compressible flow in the EVET thermalhydraulic conservation equations.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 33100 Main Heat Transport System 36000 Steam Generator Steam and Water Systems [Discipline] Mathematics#Mechanical Engineering [Topic] Modelling Process Systems Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
- Mathematics and Computers in Simulation, 22, 1980 pseudo-characteristic-method-of-lines-solution-of-first-order-hyperbolic-equation.pdf (455 kb) -
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) -
A Method of Limiting Intermediate Volume Fraction in Iterative Two-Fluid Computations, by M.B. Carver, AECL, 1982-01-01. Doc type: Paper.
Summary: This is seminal and the core contribution in Carver's thesis. The ICE guys, Harlow & Amsden and the IPSA guys, Spalding & Patankar had not got it quite right for air/water conditions where the water totally dominates the pressure field calculation when it is based on mass flux balance, as this is dominated by the water component and neglects continuity of the air. Herein, a volumetric balance fixes that and the calculation also converges better with the constraint mentioned in the title.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 33100 Main Heat Transport System 36000 Steam Generator Steam and Water Systems [Discipline] Mathematics#Mechanical Engineering [Topic] Modelling Process Systems Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
- Journal of Mechanical Engineering Science, Vol. 24, No. 2, 1982 limiting_volume_fraction_JMES_JOUR_1982.pdf (374 kb) -
CANDU 6 Heat balance, by Wm.J. Garland, McMaster University, 1985-04-24. Doc type: Other.
Summary: CANDU 6 heat balance / power calculation based on measured temperatures, pressures and flows, with error propagation estimates.
Keywords: [Concept] - [SI] 30000 Reactor Steam Generators and Auxiliaries [Discipline] Nuclear Engineering [Topic] Conceptual; #Heat Transfer; #Modelling; #Process Systems [Phase] Concept; #Design [Audience] College; #Engineer; #Grad; #Manager; #Technician; #Ugrad
- CANDU2.xls (88 kb) -
Development and Application of a Three-Dimensional Two-Fluid Numerical Algorithm for Simulation of Phase Redistribution by Bends and Obstructions, by M.B. Carver, AECL, 1987-04-01. Doc type: Other.
Summary: Mike completed his Ph.D in parallel to his full time position at AECL as branch head of Applied Mathematics at CRNL. Upon completion he was appointed adjunct professor at McMaster and was co-supervisor of two degrees.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 33100 Main Heat Transport System [Discipline] Mathematics#Mechanical Engineering [Topic] Process Systems Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
- Ph.D Thesis, Department of Mechanical Engineering, University of Ottawa, April 1987 ThesisNL56352.pdf (4350 kb) -
Numerical Solution of the Thermalhydraulic Conservation Equations from Fundamental Concepts to Multidimensional Analysis, by M.B. Carver, , 1995-08-01. Doc type: Report.
Summary: This material was presented as part of a short course in Two-Phase Flow and Heat Transfer at McMaster University and is documented in report form for further reference. The discussion briefly establishes some requisite concepts of differential equation theory, and applies these to describe methods for numerical solution of the thennalhydraulic conservation equations in their various forms. The intent is to cover the general methodology without obscuring the principles with details. As a short overview of computational thermalhydraulics, the material provides an introductory foundation, so that those working on the application of thennalhydraulic codes can begin to understand the many intricacies involved without having to locate and read the references given. Those intending to work in code development will need to read and understand all the references.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 33100 Main Heat Transport System 36000 Steam Generator Steam and Water Systems [Discipline] Mathematics#Mechanical Engineering [Topic] Basic Equations Collections Conceptual Modelling Process Systems Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Grad
- AECL-11387, ARD-TD-550, Revision 1 (2017) to the original (1995) Carver AECL-11387[3628]-WithAddendum.pdf (6457 kb) -
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) -
CANDU Overiew, Course 3.2, by G. Bereznai, Chulalongkorn University, 1996-11-01. Doc type: Course.
Summary:
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 30000 Reactor, Steam Generators and Auxiliaries [Discipline] Nuclear Engineering [Topic] Conceptual Function Intro and Overview Process Systems Transient [Phase] Operation [Audience] College Engineer Ugrad
- Chapter 0 - Title, Table of Contents, Objectives 20044201.pdf (89 kb)
- Chapter 1 - Overall Unit, by G. Bereznai, 20044202.pdf (973 kb)
- Chapter 2 - Reactor and Moderator, by G. Bereznai, 20044203.pdf (659 kb)
- Chapter 3 - Reactor Control, by G. Bereznai, 20044204.pdf (881 kb)
- Chapter 4 - Heat Transport, by G. Bereznai, 20044205.pdf (755 kb)
- Chapter 5 - Steam, Turbine and Feedwater, by G. Bereznai, 20044206.pdf (666 kb)
- Chapter 6 - Special Safety Systems, by G. Bereznai, 20044207.pdf (1131 kb)
- Workbook, Chapter 0 - Table of Contents, Course Introduction, by G. Bereznai, 20044208.pdf (194 kb)
- Workbook, Chapter 1 - Modules A to E, by G. Bereznai, 20044209.pdf (3559 kb)
- Workbook, Chapter 2 - Modules A to C, by G. Bereznai, 20044210.pdf (688 kb)
- Workbook, Chapter 3 - Modules A to C, by G. Bereznai, 20044211.pdf (2317 kb)
- Workbook, Chapter 4 - Modules A to D, by G. Bereznai, 20044212.pdf (1115 kb)
- Workbook, Chapter 5 - Modules A & B, by G. Bereznai, 20044213.pdf (1110 kb)
- Workbook, Chapter 6 - Modules A to D, by G. Bereznai, 20044214.pdf (464 kb) -
Introduction to CANDU 6 - Overheads for a course presented at Xi'an Jiaotong University, 1998-09-22 to 25, by D.A. Meneley and Y.Q. Ruan, AECL, 1998-09-22. Doc type: Course.
Summary:
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology [Discipline] Nuclear Engineering [Topic] Conceptual Function Intro and Overview Process Systems [Phase] Concept Design Safety [Audience] College Engineer Ugrad
- Comparison of PHWR and PWR 19980101.pdf (1874 kb)
- Reactor and Fuel Handling, by D.A. Meneley and Y.Q. Ruan, 19980102.pdf (2650 kb)
- Moderator, HTS, Heavy Water, by D.A. Meneley and Y.Q. Ruan, 19980103.pdf (2454 kb)
- Main Steam & T/G Systems, by D.A. Meneley and Y.Q. Ruan, 19980104.pdf (2626 kb)
- Special Safety Systems, by D.A. Meneley and Y.Q. Ruan, 19980105.pdf (949 kb)
- CANDU Reactor Control, by D.A. Meneley and Y.Q. Ruan, 19980106.pdf (1038 kb) -
CANDU Fundamentals, CNSC, 2003-06-24. Doc type: Course.
Summary: Fundamentals of reactor processes of the CANDU reactor.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology [Discipline] Nuclear Engineering [Topic] Conceptual Function Intro and Overview Process Systems Transient [Phase] Concept Design Operation [Audience] College Engineer Ugrad
- Complete Course 20040700.pdf (6375 kb)
- Objectives, 20040701.pdf (422 kb)
- Atomic Structure, 20040702.pdf (257 kb)
- Radioactivity - Spontaneous Nuclear Processes, 20040703.pdf (372 kb)
- Nuclear Stability And Instability, 20040704.pdf (264 kb)
- Activity and Half-Life, 20040705.pdf (271 kb)
- Neutrons and Neutron Interactions, 20040706.pdf (296 kb)
- Fission, 20040707.pdf (488 kb)
- Fuel, Moderator, and Reactor Management, 20040708.pdf (231 kb)
- Nuclear Safety, 20040709.pdf (182 kb)
- Nuclear Power Reactors, 20040710.pdf (205 kb)
- Candu Reactor Construction, 20040711.pdf (653 kb)
- Moderator and Moderator System, 20040712.pdf (196 kb)
- Moderator Auxiliary Systems, 20040713.pdf (253 kb)
- Heat Transport System (HTS), 20040714.pdf (410 kb)
- Heat Transport Auxiliary Systems, 20040715.pdf (372 kb)
- Reactor Fuel, 20040716.pdf (503 kb)
- Neutron Life Cycle, 20040717.pdf (221 kb)
- Criticality and Neutron Multiplication, 20040718.pdf (297 kb)
- Changes In Reactor Power With Time, 20040719.pdf (236 kb)
- Xenon: A Fission Product Poison, 20040720.pdf (287 kb)
- Reactivity Effects of Temperature Changes, 20040721.pdf (268 kb)
- Neutron Flux Control, 20040722.pdf (311 kb)
- Reactivity Mechanisms, 20040723.pdf (538 kb)
- Emergency Coolant Injection & Containment, 20040724.pdf (795 kb)
- The Conventional Side of the Station, 20040725.pdf (1049 kb)
- Other Major Systems, 20040726.pdf (665 kb)
- Radioactivity - Spontaneous Nuclear Processes, 20040727.pdf (539 kb)
- Nuclear Stability And Instability, 20040728.pdf (1360 kb)
- Activity and Half-Life, 20040729.pdf (120 kb)
- Neutrons and Neutron Interactions, 20040730.pdf (163 kb)
- Fission, 20040731.pdf (3750 kb)
- Fuel, Moderator, and Reactor Management, 20040732.pdf (937 kb)
- Nuclear Safety, 20040733.pdf (465 kb)
- Nuclear Power Reactors, 20040734.pdf (693 kb)
- CANDU Reactor Construction, 20040735.pdf (1259 kb)
- Moderator System, 20040736.pdf (731 kb)
- Heat Transport System, 20040737.pdf (1053 kb)
- Fuel and Fuelling, 20040738.pdf (2226 kb)
- Neutron Life Cycle, 20040739.pdf (151 kb)
- Criticality and Neutron Multiplication, 20040740.pdf (709 kb)
- Changes in Reactor Power with time, 20040741.pdf (2744 kb)
- Neutron Flux Control, 20040742.pdf (157 kb)
- Reactivity Mechanisms, 20040743.pdf (1894 kb)
- Emergency Coolant Injection & Containment, 20040744.pdf (1024 kb)
- The Conventional Side of the Station, 20040745.pdf (1535 kb)
- Other Major Systems, 20040746.pdf (2581 kb) -
Principes Fondamentaux des Réacteurs CANDU - CANDU Fundamentals, CNSC, 2003-06-24. Doc type: Course.
Summary:
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology [Discipline] Nuclear Engineering [Topic] Conceptual Function Intro and Overview Process Systems Transient [Phase] Operation [Audience] College Engineer Ugrad
- Texte Complet 20060300.pdf (7093 kb)
- Table des Matières, 20060301.pdf (102 kb)
- Chapitre 1 - Objectifs, 20060302.pdf (105 kb)
- Chapitre 2 - Structure de l’Atome, 20060303.pdf (156 kb)
- Chapitre 3 - Radioactivité - Phénomènes Nucléaires Spontanés, 20060304.pdf (296 kb)
- Chapitre 4 - Stabilité et Instabilité Nucléaires, 20060305.pdf (198 kb)
- Chapitre 5 - Activité et Période, 20060306.pdf (177 kb)
- Chapitre 6 - Les Neutrons et Leurs Interactions, 20060307.pdf (206 kb)
- Chapitre 7 - La Fission, 20060308.pdf (382 kb)
- Chapitre 8 - Combustible, Modérateur et Gestion du Réacteur, 20060309.pdf (156 kb)
- Chapitre 9 - Sûreté Nucléaire, 20060310.pdf (141 kb)
- Chapitre 10 - Réacteurs de Puissance, 20060311.pdf (157 kb)
- Chapitre 11 - Structure d’un Réacteur, 20060312.pdf (820 kb)
- Chapitre 12 - Modérateur et Circuit du Modérateur, 20060313.pdf (125 kb)
- Chapitre 13 - Circuits Auxiliaires du Modérateur, 20060314.pdf (250 kb)
- Chapitre 14 - Circuit Caloporteur (CC), 20060315.pdf (356 kb)
- Chapitre 15 - Systèmes Auxiliaires du Circuit Caloporteur, 20060316.pdf (321 kb)
- Chapitre 16 - Le Combustible CANDU, 20060317.pdf (575 kb)
- Chapitre 17 - Cycle de Vie des Neutrons, 20060318.pdf (126 kb)
- Chapitre 18 - Criticité et Multiplication de Neutrons, 20060319.pdf (189 kb)
- Chapitre 19 - Changements dans la Puissance du Réacteur au Fil du Temps, 20060320.pdf (149 kb)
- Chapitre 20 - Un Produit de Fission Agissant Comme Poison : le Xénon, 20060321.pdf (211 kb)
- Chapitre 21 - Effets des Changements de Température sur la Réactivité, 20060322.pdf (197 kb)
- Chapitre 22 - Contrôle du Flux de Neutron, 20060323.pdf (267 kb)
- Chapitre 23 - Mécanismes de Contrôle de la Réactivité, 20060324.pdf (461 kb)
- Chapitre 24 - Injection d’Urgence de Caloporteur et Confinement, 20060325.pdf (969 kb)
- Chapitre 25 - Les Parties Non Nucléaires de la Centrale, 20060326.pdf (1176 kb)
- Chapitre 26 - Autres Grands Systèmes, 20060327.pdf (752 kb) -
CANDU Primary Heat Transfer System Heat Duty Diagram - analytic solution, by Wm.J. Garland, McMaster University, 2004-07-17. Doc type: Other.
Summary: CANDU Primary Heat Transfer System Heat Duty Diagram - simplified analytical calculation.
Keywords: [Concept] - [SI] 33100 Main Heat Transport Syste 36000 Steam Generator Steam and Water Systems [Discipline] Mechanical Engineering [Topic] Basic Equations Heat Transfer Modelling Process Systems [Phase] Concept Design Analysis [Audience] College; #Engineer; #Grad; #Manager; #Technician; #Ugrad
- linear1.xls (333 kb) -
CANDU Primary Heat Transfer System Heat Duty Diagram - numeric solution, by Wm.J. Garland, McMaster University, 2004-07-17. Doc type: Other.
Summary: CANDU Primary Heat Transfer System Heat Duty Diagram simplified numerical calculation .
Keywords: [Concept] - [SI] 33100 Main Heat Transport Syste 36000 Steam Generator Steam and Water Systems [Discipline] Mechanical Engineering [Topic] Basic Equations Heat Transfer Modelling Process Systems [Phase] Concept Design Analysis [Audience] College; #Engineer; #Grad; #Manager; #Technician; #Ugrad
- numeric1.xls (377 kb) -
CANDU 6 Technical Summary, by AECL staff, AECL, 2005-05-01. Doc type: Report.
Summary: This Technical Summary provides an overview of the CANDU 6 nuclear power system. All CANDU 6 power plants are fundamentally the same, although there are differences in detail: these largely result from different site conditions, and from improvements made in the newer designs. The evolution of CANDU 6 is illustrated in the inside back cover.
Keywords: [Concept] - [SI] 30000 Reactor, Steam Generators and Auxiliaries [Discipline] General Engineering [Topic] Process Systems [Phase] Design [Audience] College Engineer High Manager Ugrad Vendor
- CANDU6_TechnicalSummary-s.pdf (3750 kb) -
Nuclear Power Plant Systems and Operation, by G. Bereznai, University of Ontario Institute of Technology, 2005-07-01. Doc type: Reference.
Summary: Nuclear Power Plant Systems and Operation course covering following: science fundamentals, equipment and systems principles relevant to CANDU reactors; CANDU reactor power plant systems and their operation.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 30000 Reactor, Steam Generators and Auxiliaries [Discipline] Nuclear Engineering [Topic] Conceptual Function Intro and Overview Process Systems Transient [Phase] Operation [Audience] College Engineer Ugrad
- 20071000.pdf (2511 kb) -
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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