[Phase]: Design Analysis 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: 400
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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) -
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) -
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) -
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) -
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) -
Nuclear Theory, Course 227, Nuclear Training Centre, OPG, 1967-07-01. Doc type: Course.
Summary: Introductory reactor physics covering the basic phenomena without extensive use of equations.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Ugrad
- Full Course 20050400.pdf (2650 kb)
- 227.00-01 Prompt, Delayed and Photo-Neutron Production, 20050401.pdf (153 kb)
- 227.00-02 Neutron Balance During Steady Reactor Operation, 20050402.pdf (206 kb)
- 227.00-03 Neutron Density, Neutron Power and Neutron Flux, 20050403.pdf (103 kb)
- 227.00-04 Neutron Flux Distribution and its Effect on Power, 20050404.pdf (274 kb)
- 227.00-05 Meaning of Criticality, Multiplication Factor, Reactivity and Neutron Lifetime, 20050405.pdf (140 kb)
- 227.00-06 Change of Reactor Power with Reactivity Change, 20050406.pdf (198 kb)
- 227.00-07 Change of Reactor Power with Time, 20050407.pdf (112 kb)
- 227.00-08 Effects of Prompt and Delayed Neutrons on Reactor Power Changes, 20050408.pdf (282 kb)
- 227.00-09 Effect of Photoneutrons on Reactor Power Changes, 20050409.pdf (150 kb)
- 227.00-10 Methods of Reactor Control, 20050410.pdf (160 kb)
- 227.00-11 Starting Up a Reactor and Increasing Power, 20050411.pdf (197 kb)
- 227.00-12 Decreasing Power and Shutting Down a Reactor, 20050412.pdf (146 kb)
- 227.00-13 Xenon Poison and its Effects on Reactor Operation, 20050413.pdf (241 kb)
- 227.00-14 Examples of Practical Reactor Behaviour, 20050414.pdf (156 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) -
Fast Reactor Kinetics - The QXI Code, by D.A. Meneley, K.O. Ott and E.S. Wiener, Individual Contributions, 1971-03-01. Doc type: Report.
Summary:
Keywords: [Concept] - [SI] 31000 Reactor [Discipline] Nuclear Engineering [Topic] Modelling [Phase] Design Analysis Safety Analysis [Audience] Grad Ugrad
- 20070100.pdf (7793 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) -
Nuclear Theory, Course 127, Nuclear Training Centre, OPG, 1974-07-01. Doc type: Course.
Summary: Introductory reactor physics covering the basic phenomena without extensive use of equations.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Ugrad
- Full Course 20050300.pdf (5869 kb)
- 127.00-00 Index and Objectives, 20050301.pdf (244 kb)
- 127.10-01 Nuclear Structure, 20050302.pdf (571 kb)
- 127.10-02 Neutron Reactions, 20050303.pdf (156 kb)
- 127.10-03 Fission, 20050304.pdf (264 kb)
- 127.10-04 Neutron Cross Sections and Neutron Flux, 20050305.pdf (305 kb)
- 127.10-05 The Chain Reaction, 20050306.pdf (240 kb)
- 127.10-06 Moderator Properties, 20050307.pdf (296 kb)
- 127.10-05b Neutron Balance and the Four Factor Formula, 20050308.pdf (270 kb)
- 127.10-06b Effect of Enrichment, Fuel Arrangement and Fuel Burnup on the Four Factor Formula, 20050309.pdf (287 kb)
- 127.10-07 Flux Distribution and Critical Size, 20050310.pdf (203 kb)
- 127.10-08 Function and Properties of the Reflector, 20050311.pdf (219 kb)
- 127.20-01 Review of Terms, 20050312.pdf (201 kb)
- 127.20-02 Low Power Considerations, 20050313.pdf (341 kb)
- 127.20-03 Effects Due to Temperature Changes and Void Formation, 20050314.pdf (330 kb)
- 127.20-04 Effects Due to Fission Product Accumulation, 20050315.pdf (295 kb)
- 127.20-05 Effects Due to Fuel Burnup, 20050316.pdf (245 kb)
- 127.20-06 Reactor Control, 20050317.pdf (303 kb)
- 127.20-07 The Approach to Critical and the Raising of Power, 20050318.pdf (534 kb)
- 127.20-08 Examples of Practical Reactor Behaviour, 20050319.pdf (262 kb)
- 127.20-09 Reactor Stability, 20050320.pdf (135 kb)
- 127.20-10 Safety Considerations, 20050321.pdf (308 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) -
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) -
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) -
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) -
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) -
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) -
Fundamentals of CANDU Reactor Nuclear Design (TDAI-244), by A.A. Pasanen, AECL, 1980-01-01. Doc type: Report.
Summary: A Lecture Series given at Trieste 22 January - 28 March 1980, TDAI-244 1980 August
Keywords: [Concept] - [SI] 31000 Reactor 37000 Fuel [Discipline] Nuclear Engineering Physics [Topic] Fuel Management Reactor Physics [Phase] Design Design Analysis [Audience] Engineer Manager Ugrad
- Title and Table of Contents 20042000.pdf (176 kb)
- Chapter 1 - Introduction, by A.A. Pasanen, 20042001.pdf (35 kb)
- Chapter 2 - Physical Description of the CANDU-600, by A.A. Pasanen, 20042002.pdf (672 kb)
- Chapter 3 - Methodology for Reactor Physics Analysis In Core Design, by A.A. Pasanen, 20042003.pdf (1922 kb)
- Bibliography, by A.A. Pasanen, 20042006.pdf (111 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) -
Nuclear Theory, Course 227, Nuclear Training Centre 20053700, by J.E. Crist, J. U. Burnham, A. Broughton, D. Winfield, OPG, 1980-08-01. Doc type: Course.
Summary: Introductory reactor physics covering the basic phenomena without extensive use of equations.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Ugrad
- Full Course 20053700.pdf (8430 kb)
- 227.00-00 Index and Objectives, by J. Crist, 20053701.pdf (443 kb)
- 227.00-01 Nuclear Structure, by J. U. Burnham, J.E. Crist, A. Broughton, 20053702.pdf (274 kb)
- 227.00-02 Neutron Reactions, by J. U. Burnham, J.E. Crist, 20053703.pdf (662 kb)
- 227.00-03 Neutron Cross Sections, Neutron Density and Neutron Flux, by J. U. Burnham, J.E. Crist, A. Broughton, 20053704.pdf (318 kb)
- 227.00-04 Thermal Reactors (Basic Design), by J.E. Crist, A. Broughton, 20053705.pdf (342 kb)
- 227.00-05 Neutron Multiplication Factor and Reactivity, by J.E. Crist, 20053706.pdf (196 kb)
- 227.00-06 Neutron Flux Distribution, by J.E. Crist, 20053707.pdf (324 kb)
- 227.00-07 Effect of Fuel Burnup, by J.E. Crist, 20053708.pdf (361 kb)
- 227.00-08 Changes in Reactor Power with Time, by J.E. Crist, 20053709.pdf (328 kb)
- 227.00-09 Source Neuron Effects, by J.E. Crist, A. Broughton, 20053710.pdf (217 kb)
- 227.00-10 Power and Power Measurement, by J.E. Crist, A. Broughton, 20053711.pdf (356 kb)
- 227.00-11 Fission Product Poisoning, by J. U. Burnham, J.E. Crist, 20053712.pdf (866 kb)
- 227.00-12 Reactivity Effects Due to Temperature Changes, by J.E. Crist, 20053713.pdf (454 kb)
- 227.00-13 Reactivity Control, by J.E. Crist, A. Broughton, 20053714.pdf (875 kb)
- 227.00-14 The Approach to Critical, by J.E. Crist, A. Broughton, 20053715.pdf (148 kb)
- 227.00-15 Failed Fuel Monitoring, by D. Winfield, A. Broughton, 20053716.pdf (322 kb)
- 227 Appendix A Symbols, 20053717.pdf (22 kb)
- 227 Appendix B Properties of Elements and Certain Molecules, 20053718.pdf (120 kb)
- 227 Appendix C Nuclides and Isotopes, 20053719.pdf (1921 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) -
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) -
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) -
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) -
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) -
Two Dimensional Modelling of the Homogenizing Effects of Flow Obstructions in Two Fluid Flow, by M.B. Carver and M. E. Salcudean, AECL, 1984-12-01. Doc type: Paper.
Summary: It is well known that obstructions in two fluid flow have the effect of homogenizing the two fluid mixture, resulting not only in a more uniform phase distribution, but also in a significant reduction of the ratio of fluid velocities. This paper describes a 2D, 2Fluid computer program written by the first author to do proof of principal studies of 2fluid redistribution around bends and past obstacles. The details necessary for modelling air/water flows in these geometries have been introduced here before extending the work to 3D. The paper shows that these phase redistribution effects can be modelled using the two fluid computer program, and compares results to those obtained in a recent experiment on flow past obstructions.
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 33100 Main Heat Transport System [Discipline] Mathematics#Mechanical Engineering [Topic] Modelling Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
- Mathematics and Computers in Simulation 26(6):pp 475–484, December 1984 two-dimensional-modelling-of-the-homogenizing-effects-of-flow-obstructions.pdf (1202 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) -
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) -
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) -
Nuclear Journal of Canada, 1987 Vol 1 No. 4, by Alain Hebert, CNS-, 1987-12-01. Doc type: Paper.
Summary: A new three-dimensional neutron diffusion code named TRIVAC was set up using advanced discretization algorithms and improved iteration strategies. The two variable order discretization algorithms used in TRIVAC will be presented.
Keywords: [Concept] Reactor Physics [SI] 03000 Engineering Science and Technology 31000 Reactor [Discipline] Nuclear Engineering [Topic] Modelling Reactor Physics [Phase] Design Analysis Operation [Audience] Engineer Grad Ugrad
- Trivac: A Modular Diffusion Code for Fuel Management and Design Applications NJC-1-4-06.pdf (472 kb) -
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) -
Nuclear Theory, Course PI 27 , Nuclear Training Centre, OPG, 1990-01-01. Doc type: Course.
Summary: Introductory reactor physics covering the basic phenomena without extensive use of equations.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Ugrad
- Full Course 20050600.pdf (6624 kb)
- PI 27.00-00 Index and Objectives, 20050601.pdf (389 kb)
- 427.00-02 Radioactivity - Spontaneous Nuclear Processes, 20050602.pdf (282 kb)
- 227.00-01 Nuclear Structure, 20050603.pdf (217 kb)
- 227.00-02 Neutron Reactions, 20050604.pdf (559 kb)
- 227.00-03 Neutron Cross Sections, Neutron Density and Neutron Flux, 20050605.pdf (300 kb)
- 227.00-04 Thermal Reactors (Basic Design), 20050606.pdf (338 kb)
- 227.00-05 Neutron Multiplication Factor and Reactivity, 20050607.pdf (193 kb)
- 227.00-06 Neutron Flux Distribution, 20050608.pdf (314 kb)
- 227.00-07 Effect of Fuel Burnup, 20050609.pdf (467 kb)
- 227.00-08 Changes in Reactor Power with Time, 20050610.pdf (357 kb)
- 227.00-09 Source Neutron Effects, 20050611.pdf (294 kb)
- 227.00-10 Reactor and Power Measurement, 20050612.pdf (509 kb)
- 227.00-11 Fission Product Poisoning, 20050613.pdf (999 kb)
- 227.00-12 Reactivity Effects Due to Temperature Changes, 20050614.pdf (409 kb)
- 227.00-13 Reactivity Control, 20050615.pdf (782 kb)
- 227.00-14 The Approach to Critical, 20050616.pdf (295 kb) -
Nuclear Theory, Course 427, Nuclear Training Centre, OPG, 1990-07-01. Doc type: Course.
Summary: Introductory reactor physics covering the basic phenomena without extensive use of equations.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Ugrad
- Full Course 20050500.pdf (2088 kb)
- 427.00-00 Index and Objectives, 20050501.pdf (246 kb)
- 427.00-01 Atomic Structures, 20050502.pdf (108 kb)
- 427.00-02 Radioactivity, 20050503.pdf (212 kb)
- 427.00-03 Nuclear Stability and Instability, 20050504.pdf (150 kb)
- 427.00-04 Activity, 20050505.pdf (117 kb)
- 427.00-05 Neutrons and Neutron Interactions, 20050506.pdf (107 kb)
- 427.00-06 Fission, 20050507.pdf (220 kb)
- 427.00-07 Fuel, Moderator and Reactor Arrangement, 20050508.pdf (141 kb)
- 427.00-08 Neutron Life Cycle, 20050509.pdf (101 kb)
- 427.00-09 Criticality and Neutron Multiplication, 20050510.pdf (183 kb)
- 427.00-10 Changes in Reactor Power with Time, 20050511.pdf (149 kb)
- 427.00-11 Xenon : A Fission Product Poison, 20050512.pdf (124 kb)
- 427.00-12 Reactivity Effects Due to Temperature Changes, 20050513.pdf (133 kb)
- 427.00-13 Neutron Flux Control, 20050514.pdf (156 kb) -
Nuclear Theory, Nuclear Training Course 227 20031001, OPG, 1992-08-01. Doc type: Course.
Summary: Introductory reactor physics covering the basic phenomena without extensive use of equations. Revised by N. Ritter.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Ugrad
- Cover pages and table of contents 20031001.pdf (76 kb)
- Objectives, 20031002.pdf (164 kb)
- Chapter 1: Nuclear Structure, 20031003.pdf (213 kb)
- Chapter 2: Neutron Reactions, 20031004.pdf (631 kb)
- Chapter 3: Neutron Cross Sections, Neutron Density and Neutron Flux, 20031005.pdf (289 kb)
- Chapter 4: Thermal Reactors (Basic Design), 20031006.pdf (317 kb)
- Chapter 5: Neutron Multiplication Factor and Reactivity, 20031007.pdf (184 kb)
- Chapter 6: Neutron Flux Distribution, 20031008.pdf (321 kb)
- Chapter 7: Effect of Fuel Burnup, 20031009.pdf (395 kb)
- Chapter 8: Changes in Reactor Power with Time, 20031010.pdf (314 kb)
- Chapter 9: Source Neutron Effects, 20031011.pdf (307 kb)
- Chapter 10: Power and Power Measurements, 20031012.pdf (356 kb)
- Chapter 11: Fission Product Measurement, 20031013.pdf (838 kb)
- Chapter 12: Reactivity Effects due to Temperature Changes, 20031014.pdf (406 kb)
- Chapter 13: Reactivity Control, 20031015.pdf (732 kb)
- Chapter 14: The Approach to Critical, 20031016.pdf (384 kb)
- Appendix: A: Symbols, 20031017.pdf (23 kb)
- Appendix: B: Properties of Elements and Certain Molecules, 20031018.pdf (105 kb)
- Appendix: C: Nuclides and Isotopes, 20031019.pdf (1547 kb) -
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) -
Effects Contributing to Positive Coolant Void Reactivity in CANDU, by J. J. Whitlock, Wm.J. Garland, M.S. Milgram, McMaster University, 1995-06-25. Doc type: Paper.
Summary: The lattice cell properties leading to positive coolant void reactivity in the CANDU reactor are described. The effect is subdivided into spectral, spatial, and isotopic components, and described in terms of criticality factors based on the six-factor fo
Keywords: [Concept] Reactor Physics [SI] 03000 Engineering Science and Technology 31000 Reactor [Discipline] Nuclear Engineering [Topic] Reactor Physics3 [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
- Whitlock_ANS_1995.pdf (777 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 Physics & Fuelling Strategies 1.4, by R.D. Page, Chulalongkorn University, 1996-01-01. Doc type: Course.
Summary:
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Fuel Management Reactor Physics [Phase] Design Design Analysis [Audience] Engineer Ugrad
- Reference to Lecture 10 - Canadian Power Reactor Fuel 20042115.pdf (2381 kb)
- Reference to Lecture 12 - Results of a Survey on Accident and Safety Analysis Codes, Benchmarks. Verification and Validation Methods, by A.G. Lee and G.B. Wilkin, 20042117.pdf (482 kb) -
Nuclear Physics and Reactor Theory 1.1, by Ian Cameron, Chulalongkorn University, 1996-02-01. Doc type: Course.
Summary: Introductory reactor physics covering the basic phenomena without extensive use of equations.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Ugrad
- Title and Table of Contents 20041100.pdf (132 kb)
- Module 1 - Nuclear Structure, by Ian Cameron, 20041101.pdf (451 kb)
- Module 2 - Neutron Reactions, by Ian Cameron, 20041102.pdf (783 kb)
- Module 3 - Neutron Cross-Sections, Neutron Density and Neutron Flux, by Ian Cameron, 20041103.pdf (488 kb)
- Module 4 - Thermal Reactors (Basic Design), by Ian Cameron, 20041104.pdf (413 kb)
- Module 5 - Neutron Multiplication Factor and Reactivity, by Ian Cameron, 20041105.pdf (384 kb)
- Module 6 - Neutron Flux Distribution, by Ian Cameron, 20041106.pdf (313 kb)
- Module 7 - Effects of Fuel Burnup, by Ian Cameron, 20041107.pdf (472 kb)
- Module 8 - Reactor Power Response to Changes in Reactivity, by Ian Cameron, 20041108.pdf (574 kb)
- Module 9 - Source Neutron Effects, by Ian Cameron, 20041109.pdf (278 kb)
- Module 10 - Power and Power Measurement, by Ian Cameron, 20041110.pdf (421 kb)
- Module 11 - Fission Product Poisoning, by Ian Cameron, 20041111.pdf (695 kb)
- Module 12 - Reactivity Effects Due to Temperature Changes and Coolant Voiding, by Ian Cameron, 20041112.pdf (678 kb)
- Module 13 - Reactivity Control, by Ian Cameron, 20041113.pdf (678 kb)
- Module 14 - The Approach To Critical, by Ian Cameron, 20041114.pdf (315 kb)
- Module 15 - Neutron Detectors And Reactor Instrumentation, by Ian Cameron, 20041115.pdf (639 kb)
- Appendix A, by Ian Cameron, 20041116.pdf (72 kb) -
Nuclear Theory II (Kinetics) 1.2, by John L. Groh, Chulalongkorn University, 1996-02-01. Doc type: Course.
Summary: Introductory reactor physics covering the basic phenomena without extensive use of equations.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Ugrad
- Supplement to Chapter 8 20041201.pdf (428 kb)
- Supplement to Chapter 9, by John L. Groh, 20041202.pdf (218 kb)
- Supplement to Chapter 10, by John L. Groh, 20041203.pdf (147 kb)
- Supplement to Chapter 11, by John L. Groh, 20041204.pdf (263 kb)
- Supplement to Chapter 12, by John L. Groh, 20041205.pdf (96 kb)
- Supplement to Chapter 13, by John L. Groh, 20041206.pdf (139 kb)
- Supplement to Chapter 14, by John L. Groh, 20041207.pdf (147 kb)
- Workbook, Chapter 8, by John L. Groh, 20041208.pdf (449 kb)
- Workbook, Chapter 9, by John L. Groh, 20041209.pdf (183 kb)
- Workbook, Chapter 10, by John L. Groh, 20041210.pdf (128 kb)
- Workbook, Chapter 11, by John L. Groh, 20041211.pdf (403 kb)
- Workbook, Chapter 12, by John L. Groh, 20041212.pdf (525 kb)
- Workbook, Chapter 13, by John L. Groh, 20041213.pdf (128 kb)
- Workbook, Chapter 14, by John L. Groh, 20041214.pdf (301 kb) -
Introduction to Nuclear Reactor Kinetics 1.3, by Daniel Rozon, Chulalongkorn University, 1996-02-01. Doc type: Course.
Summary: Predicting the evolution in time of the neutron population in a multiplying medium. Time variation of the reactor power (proportional to the total neutron population) is presented.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Basic Equations Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Grad Ugrad
- Table of Contents 20041800.pdf (31 kb)
- Chapter 1 - Neutron/Nucleus Interactions and Fission, by Daniel Rozon, 20041801.pdf (1008 kb)
- Chapter 2 - The Diffusion Equation and the Steady State, by Daniel Rozon, 20041802.pdf (1840 kb)
- Chapter 3 - The Point Kinetics Equation, by Daniel Rozon, 20041803.pdf (1190 kb)
- Workbook to Chapter 1 - Neutron/Nucleus Interactions and Fission, by Daniel Rozon, 20041804.pdf (447 kb)
- Workbook to Chapter 2 - The Diffusion Equation and the Steady State, by Daniel Rozon, 20041805.pdf (709 kb)
- Workbook to Chapter 3 - The Point Kinetics Equations, by Daniel Rozon, 20041806.pdf (385 kb)
- Workbook to Chapter 4 - Elementary Solutions to the Kinetics Equations, by Daniel Rozon, 20041807.pdf (398 kb)
- Workbook to Chapter 5 - Approximate Solutions for Reactivity Ramps, by Daniel Rozon, 20041808.pdf (276 kb) -
Reactor Physics & Fuelling Strategies 1.4, by John Brenciaglia, Chulalongkorn University, 1996-02-01. Doc type: Course.
Summary: Descriptive reactor physics associated with fuel management. Simulation, flux mapping. Reference text used: Fundamentals of CANDU Reactor Nuclear Design (TDAI-244) (AECL)
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Fuel Management Reactor Physics [Phase] Design Design Analysis [Audience] Engineer Ugrad
- Lecture 1 - Reactor Design Philosophies 20042101.pdf (665 kb)
- Lecture 2 - Use of Reactor Design Codes, by John Brenciaglia, 20042102.pdf (137 kb)
- Lecture 3 - Lattice Parameter Calculations, by John Brenciaglia, 20042103.pdf (531 kb)
- Lecture 4 - Core Design Analysis, by John Brenciaglia, 20042104.pdf (332 kb)
- Lecture 5 - Time Dependence Simulation, by John Brenciaglia, 20042105.pdf (600 kb)
- Lecture 6 - Initial Fuel Load, by John Brenciaglia, 20042106.pdf (253 kb)
- Lecture 7 - Startup Physics Tests, by John Brenciaglia, 20042107.pdf (531 kb)
- Lecture 8 - Power Distribution Control, by John Brenciaglia, 20042108.pdf (720 kb)
- Lecture 9 - Safety Analysis Requirements, by John Brenciaglia, 20042109.pdf (392 kb)
- Chapter 10 - Fuel Design Analysis, by John Brenciaglia, 20042110.pdf (187 kb)
- Lecture 11 - Fueling Strategies and Cycles, by John Brenciaglia, 20042111.pdf (745 kb)
- Lecture 12 - Research Reactors Requirements, by John Brenciaglia, 20042112.pdf (138 kb)
- Reference to Lecture 8 - In-Core Fuel Management, by D.A. Jenkins, 20042113.pdf (1105 kb)
- Reference to Lecture 9 - Role of Physics Analysis in Safety and Licensing, by H.C. Chow, 20042114.pdf (1389 kb)
- Reference to Lecture 11 - Fuel Management & Reactor Operation - Review of Operating Experience, by G.M. Frescura and A.L. Wight, 20042116.pdf (1501 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) -
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) -
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) -
Nuclear Theory I (Statics), or Introduction to Nuclear Technology 1.1a, by Robin Chaplin, Chulalongkorn University, 1997-01-01. Doc type: Course.
Summary: This lecture material is supplementary to Chulalongkorn University Training Program Course # 1.1, Nuclear Physics and Reactor Theory by Ian Cameron (Course 22106), Modules 1 to 7]
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Basic Equations Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Grad Ugrad
- Introduction 20041700.pdf (177 kb)
- Section 1 - Nuclear Physics, by Robin Chaplin, 20041701.pdf (461 kb)
- Section 1 - Nuclear Physics (Figures), by Robin Chaplin, 20041702.pdf (346 kb)
- Section 2 - Nuclear Interactions, by Robin Chaplin, 20041703.pdf (727 kb)
- Section 2 - Nuclear Interactions (Figures), by Robin Chaplin, 20041704.pdf (775 kb)
- Section 3 - Neutron Diffusion, by Robin Chaplin, 20041705.pdf (255 kb)
- Section 4 - Reactor Theory, by Robin Chaplin, 20041706.pdf (534 kb)
- Section 4 - Reactor Theory (Figures), by Robin Chaplin, 20041707.pdf (456 kb)
- Section 5 - Reactor Kinetics, by Robin Chaplin, 20041708.pdf (1075 kb)
- Question Bank, by Robin Chaplin, 20041709.pdf (1095 kb)
- Reference Data, by Robin Chaplin, 20041710.pdf (537 kb) -
Software Quality Assurance: Practical Procedures to Meet CSA Standards, by M.B. Carver, CNSC, 1997-04-01. Doc type: Report.
Summary: In the Canadian nuclear industry at the time, only the ASSERT code team and the NUCIRC team used definitive SQA (Software Quality Assurance), which identifies exactly what version of the computer code is being used for a given application, and every component used to build that version. A drive to apply such standards to all computer programs started in the 1990s, and Mike co-authored the 1995 AECL Reactor Development SQA manual. Upon his retirement, representatives of the then AECB (now CNSC) asked him to write a SQA guide for the industry that would bring all computer codes teams in line with CSA standards ( N286.7 & Q936).This report is CNSC-info-0669, 1997. To date the ASSERT-PV development team has followed these standards, the CATHENA team has not. Source attribution: Archived in the public domain at http://www.nuclearsafety.gc.ca/eng/about/past/timeline-dev/resources/documents/infohistorical/info-0669.pdf .
Keywords: [Concept] - [SI] 03000 Engineering Science and Technology 30000 Reactor, Steam Generators and Auxiliaries 33100 Main Heat Transport System 36000 Steam Generator Steam and Water Systems [Discipline] Mathematics#Mechanical Engineering [Topic] Modelling Thermalhydraulics [Phase] Design Analysis Safety Analysis [Audience] Engineer Grad
- Atomic Energy Control Board, Report INFO-0699, April 1997, http://www.nuclearsafety.gc.ca info-0669.pdf (3262 kb) -
Monte Carlo Method for Particle Transport Simulation, Course 1.6, by E. Hussein, Chulalongkorn University, 1997-04-08. Doc type: Course.
Summary: A brief introduction to the basics of the Monte Carlo method, how the Boltzmann particle transport equation lends itself to solution by the Monte Carlo method, specific aspects of the MCNP code.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Modelling Reactor Physics [Phase] Design Design Analysis [Audience] Engineer Ugrad
- Chapter 0 - Table of Contents 20043501.pdf (59 kb)
- Chapter 1 - Introduction, by E. Hussein, 20043502.pdf (30 kb)
- Chapter 2 - Monte Carlo Method, by E. Hussein, 20043503.pdf (283 kb)
- Chapter 3 - Boltzmann Transport Equation, by E. Hussein, 20043504.pdf (79 kb)
- Chapter 4 - MCNP Input Structure, by E. Hussein, 20043505.pdf (29 kb)
- Chapter 5 - Geometry in MCNP, by E. Hussein, 20043506.pdf (105 kb)
- Chapter 6 - MCNP Source Parameters, by E. Hussein, 20043507.pdf (173 kb)
- Chapter 7 - Physics & Material Cross-Sections, by E. Hussein, 20043508.pdf (67 kb)
- Chapter 8 - Termination Parameters, by E. Hussein, 20043509.pdf (30 kb)
- Chapter 9 - Importance Sampling, by E. Hussein, 20043510.pdf (122 kb)
- Chapter 10 - Tallying, by E. Hussein, 20043511.pdf (163 kb)
- Chapter 11 - Uncertainty Analysis, by E. Hussein, 20043512.pdf (177 kb)
- Chapter 12 - Criticality in MCNP, by E. Hussein, 20043513.pdf (42 kb)
- Workbook, Chapter 1, by E. Hussein, 20043514.pdf (60 kb)
- Workbook, Chapter 2, by E. Hussein, 20043515.pdf (460 kb)
- Workbook, Chapter 3, by E. Hussein, 20043516.pdf (103 kb)
- Workbook, Chapter 4, by E. Hussein, 20043517.pdf (45 kb)
- Workbook, Chapter 5, by E. Hussein, 20043518.pdf (167 kb)
- Workbook, Chapter 6, by E. Hussein, 20043519.pdf (270 kb)
- Workbook, Chapter 7, by E. Hussein, 20043520.pdf (95 kb)
- Workbook, Chapter 8, by E. Hussein, 20043521.pdf (41 kb)
- Workbook, Chapter 9, by E. Hussein, 20043522.pdf (195 kb)
- Workbook, Chapter 10, by E. Hussein, 20043523.pdf (265 kb)
- Workbook, Chapter 11, by E. Hussein, 20043524.pdf (281 kb)
- Workbook, Chapter 12, by E. Hussein, 20043525.pdf (68 kb) -
Reactor Core Analysis & Fuel Management, Course 1.5, by D. Rozon, Chulalongkorn University, 1997-08-01. Doc type: Course.
Summary:
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Fuel Management Reactor Physics [Phase] Design Design Analysis [Audience] Engineer Ugrad
- Chapter 5 - SLOWKIN: A Simplified Model for the Stimulation of Transients in a SLOWPOKE-2 Reactor 20043405.pdf (1297 kb)
- Chapter 1 - Coupled Neutronics-Thermalhydaulics LOCA Analysis, by B. Rouben, 20043401.pdf (970 kb)
- Chapter 2 - Core Physics Aspects of Safety Analysis, by B. Rouben, 20043402.pdf (1188 kb)
- Chapter 4 - Fuel Management in CANDU, by B. Rouben, 20043404.pdf (1542 kb)
- Workbook, Chapter 1 - Neutronics-Thermalhydraulics Overheads, by B. Rouben, 20043406.pdf (330 kb)
- Workbook, Chapter 2 - Core Physics Overheads, by B. Rouben, 20043407.pdf (567 kb)
- Chapter 3 - Fuel Management and Advanced Fuel Cycles, by D. Rozon, 20043403.pdf (1436 kb) -
Reactor Thermalhydraulics Analysis, Course 2.3, by Wm.J. Garland, Chulalongkorn University, 1998-02-01. Doc type: Course.
Summary:
Keywords: [Concept] Thermalhydraulics [SI] 33100 Main Heat Transport System [Discipline] Mechanical Engineering [Topic] Basic Equations Fluid Mechanics Thermalhydraulics [Phase] Concept Design Design Analysis [Audience] Engineer Grad Ugrad
- Glossary and Foreword 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) -
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) -
CANDU Fuel Management Course, by Ben Rouben, AECL, 1999-03-01. Doc type: Course.
Summary:
Keywords: [Concept] - [SI] 37000 Fuel [Discipline] Nuclear Engineering [Topic] Modelling Reactor Physics [Phase] Design Analysis [Audience] Engineer Grad
- Cover Page 20031100.pdf (91 kb)
- Complete Course, by Ben Rouben, 20031101.pdf (286 kb)
- Basic Characteristics of the CANDU Lattice, by Ben Rouben, 20031111.pdf (186 kb)
- The CANDU Reactivity Devices, by Ben Rouben, 20031112.pdf (147 kb)
- Detector Systems, by Ben Rouben, 20031113.pdf (141 kb)
- Computational Scheme for CANDU Neutronics, by Ben Rouben, 20031114.pdf (182 kb)
- General Discussion on CANDU Fuel Management, by Ben Rouben, 20031115.pdf (125 kb)
- Equilibrium-Core Design, by Ben Rouben, 20031116.pdf (217 kb)
- Ongoing Reactor Operation with Channel Refuellings, by Ben Rouben, 20031117.pdf (252 kb)
- Effects of 135Xe, by Ben Rouben, 20031118.pdf (151 kb)
- Summary, by Ben Rouben, 20031119.pdf (61 kb)
- Basic Characteristics of the CANDU Lattice - Figures, by Ben Rouben, 20031121.pdf (324 kb)
- The CANDU Reactivity Devices - Figures, by Ben Rouben, 20031122.pdf (404 kb)
- Detector Systems - Figures, by Ben Rouben, 20031123.pdf (418 kb)
- Computational Scheme for CANDU Neutronics - Figures, by Ben Rouben, 20031124.pdf (83 kb)
- General Discussion on CANDU Fuel Management - Figures, by Ben Rouben, 20031125.pdf (78 kb)
- Equilibrium-Core Design - Figures, by Ben Rouben, 20031126.pdf (309 kb)
- Ongoing Reactor Operation with Channel Refuellings - Figures, by Ben Rouben, 20031127.pdf (323 kb)
- Effects of 135Xe - Figures, by Ben Rouben, 20031128.pdf (99 kb) -
RFSP Training Course, by Benoit Arsenault, AECL, 2000-03-29. Doc type: Course.
Summary:
Keywords: [Concept] - [SI] 37000 Fuel [Discipline] Nuclear Engineering [Topic] Modelling Reactor Physics [Phase] Design Analysis [Audience] Engineer Grad
- Chapter 01 - Course Agenda 20054301.pdf (106 kb)
- Chapter 02 - General Intro to Methods of Physics Analysis & Physics Computer Codes, by Benoit Arsenault, 20054302.pdf (381 kb)
- Chapter 03 - The RFSP Direct-Access File, by Benoit Arsenault, 20054303.pdf (274 kb)
- Chapter 04 - RFSP Model, by Benoit Arsenault, 20054304.pdf (400 kb)
- Chapter 05 - Time-Average Model, by Benoit Arsenault, 20054305.pdf (322 kb)
- Chapter 06 - Spatial Kinetics, by Benoit Arsenault, 20054306.pdf (272 kb)
- Chapter 07 - Powderpufs-V, by Benoit Arsenault, 20054307.pdf (348 kb)
- Chapter 08 - *Simulate and *Intrep, by Benoit Arsenault, 20054308.pdf (494 kb)
- Chapter 09 - Flux and Power Mapping in RFSP, by Benoit Arsenault, 20054309.pdf (375 kb)
- Chapter 10 - RRS Modelling in RFSP, by Benoit Arsenault, 20054310.pdf (275 kb)
- Chapter 11 - *INSTANTAN, by Benoit Arsenault, 20054311.pdf (127 kb)
- Chapter 12 - RFSP Code Development, by Benoit Arsenault, 20054312.pdf (336 kb) -
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) -
Introduction to Reactor Physics, by Ben Rouben, AECL, 2002-09-01. Doc type: Course.
Summary: This is a descriptive course on the physics of CANDU reactors. The objective is to familiarize you with the basic concepts and ideas, definitions and quantities which are important in the understanding of reactor physics. The discussion will be at a basic level, as this is an introduction to the subject. Very little emphasis is placed on complex equations or difficult mathematics. The desired outcome of this course is that you will be able in the future to understand and follow reactor-physics discussions in meetings, reports or presentations.
Keywords: [Concept] Reactor Physics [SI] 31000 Reactor [Discipline] Nuclear Engineering Physics [Topic] Basic Equations Conceptual Reactor Physics [Phase] Concept Design Design Analysis [Audience] Engineer Ugrad
- 20040501.pdf (369 kb)
- Presentation, by Ben Rouben, 20040502.pdf (13610 kb) -
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) -
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 fuel channel 1-D temperature calculation, by Wm.J. Garland, McMaster University, 2004-07-17. Doc type: Other.
Summary: CANDU fuel channel 1-D temperature calculation spreadsheet.
Keywords: [Concept] - [SI] 33100 Main Heat Transport System [Discipline] Nuclear Engineering [Topic] Heat Transfer Modelling [Phase] Design Analysis [Audience] College; #Engineer; #Grad; #Manager; #Technician; #Ugrad
- channel1 (511 kb) -
Point kinetics simulation, by Wm.J. Garland, McMaster University, 2004-07-17. Doc type: Other.
Summary: A point kinetics simulation using Excel spreadsheet and VBA. Easy to play with and modify.
Keywords: [Concept] - [SI] 31000 Reactor [Discipline] Nuclear Engineering [Topic] Conceptual Modelling Reactor Physics [Phase] Concept Design Analysis [Audience] College; #Engineer; #Grad; #Manager; #Technician; #Ugrad
- pk.xls (465 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) -
Xenon and iodine kinetics simulation, by Wm.J. Garland, McMaster University, 2017-02-13. Doc type: Other.
Summary: Xenon and iodine kinetics simulation using Excel spreadsheet and VBA. Easy to play with and modify.
Keywords: [Concept] - [SI] 31000 Reactor [Discipline] Nuclear Engineering [Topic] Conceptual Modelling Reactor Physics [Phase] Concept Design Analysis [Audience] College; #Engineer; #Grad; #Manager; #Technician; #Ugrad
- Xe.xls (91 kb)
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