Verfügbarkeit: The history of multiphase science and computational fluid dynamics

The history of multiphase science and computational fluid dynamics: a personal memoir

This book tells the story of how the science of computational multiphase flow began in an effort to better analyze hypothetical light water power reactor accidents, including the "loss of coolant" accident. Written in the style of a memoir by an author with 40 years' engineering resea...

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Bibliographische Detailangaben
1. Verfasser:	Lyczkowski, Robert W. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Cham, Switzerland Springer ©2018
Schriftenreihe:	Mechanical engineering series
Schlagworte:	Geschichte Numerische Strömungssimulation Mehrphasenströmung Multiphase flow / History Computational fluid dynamics / History Écoulement polyphasique / Histoire Dynamique des fluides numérique / Histoire Computational fluid dynamics Multiphase flow History
Online-Zugang:	Inhaltsverzeichnis
Zusammenfassung:	This book tells the story of how the science of computational multiphase flow began in an effort to better analyze hypothetical light water power reactor accidents, including the "loss of coolant" accident. Written in the style of a memoir by an author with 40 years' engineering research experience in computer modeling of fluidized beds and slurries, multiphase computational fluid dynamics, and multiphase flow, most recently at Argonne National Laboratory, the book traces how this new science developed during this time into RELAP5 and other computer programs to encompass realistic descriptions of phenomena ranging from fluidized beds for energy and chemicals production, slurry transport, pyroclastic flow from volcanoes, hemodynamics of blood-borne cells, and flow of granular particulates. Such descriptions are not possible using the classical single-phase Navier-Stokes equations. Whereas many books on computational techniques and computational fluid dynamics have appeared, they do not trace the historical development of the science in any detail, and none touch on the beginnings of multiphase science. A robust, process-rich account of technologic evolution, the book is ideal for students and practitioners of mechanical, chemical, nuclear engineering, and the history of science and technology. Imparts a personal narrative tracing the critical events in the initiation, development, and propagation of multiphase science and computational fluid dynamics in its historical context; Reveals the amazing chain of incidents and coincidences but for which multiphase science and computational fluid dynamics would never have evolved; Presents in narrative form many facets of multiphase science (MPS), including sand grains, bubbles, and water droplets and how MPS differs from single-phase science; Describes the development of what came to be called the seriated loop (SLOOP) code, intend ed to replace the RELAP4 code, used to perform safety studies for and to license nuclear reactors and the politics of science that led to its demise
Beschreibung:	xvii, 334 Seiten Illustrationen, Diagramme 24 cm
ISBN:	9783319882581

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MARC


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505	8		\|a 1. Introduction -- Part I. Predestination. 2. Cleveland State University, Cleveland 1959-1964 ; 3. Illinois Institute of Technology (IIT), Chicago 1964-1970 -- Part II. In a state far away 1970-1977 -- 4. The seeds are sown by Larry Ybarrondo in a state far away, Idaho Falls, Idaho ; 5. Project development begins ; 6. Characteristics analysis of the one-dimensional, two-fluid partial differential equations (PDEs) developed by Chuck Solbrig and Dan Hughes ; 7. The SLOOP code development ; 8. The characteristics paper caper -- Part III. The rise of CFD codes. 9. RETRAN is initiated at Energy Incorporated for EPRI hiring the core SLOOP code participants ; 10. RELAP5 is initiated by Vic Ransom and Dick Wagner funded by Larry Ybarrondo ; 11. DOE starts code development at Systems, Science and Software and Jaycor to address the energy crisis caused by the oil embargos ; 12. IIT code begins using Los Alamos' K-FIX code ; 13. METC starts erosion R & D cooperative venture and MFIX code development using FLUFIX code ; 14. The rise of the first commerical CFD codes: PHOENICS, FLUENT, FIDAP, CFX, FLOW-3D, and STAR-CD -- Part IV. Attempts to establish a national program for multiphase flow research. 15. The failure of Argonne National Laboratory to establish the Multiphase Flow Research Institute ; 16. DOE OIT virtual center for multiphase dynamics effort begins, becomes the Multiphase Fluid Dynamics Research Consortium ; 17. NETL initiates workshops on multiphase flow research later called multiphase flow science -- Part V. Multiphase conferences and Gidaspow's books. 18. Conferences and workshops addressing multiphase needs and problems begin due to Professor Dimitri Gidaspow's initiatives ; 19. Gidaspow publishes his two multiphase books ; 20. Conclusion, what does the future hold? -- Appendices
520	3		\|a This book tells the story of how the science of computational multiphase flow began in an effort to better analyze hypothetical light water power reactor accidents, including the "loss of coolant" accident. Written in the style of a memoir by an author with 40 years' engineering research experience in computer modeling of fluidized beds and slurries, multiphase computational fluid dynamics, and multiphase flow, most recently at Argonne National Laboratory, the book traces how this new science developed during this time into RELAP5 and other computer programs to encompass realistic descriptions of phenomena ranging from fluidized beds for energy and chemicals production, slurry transport, pyroclastic flow from volcanoes, hemodynamics of blood-borne cells, and flow of granular particulates. Such descriptions are not possible using the classical single-phase Navier-Stokes equations.
520	3		\|a Whereas many books on computational techniques and computational fluid dynamics have appeared, they do not trace the historical development of the science in any detail, and none touch on the beginnings of multiphase science. A robust, process-rich account of technologic evolution, the book is ideal for students and practitioners of mechanical, chemical, nuclear engineering, and the history of science and technology.
520	3		\|a Imparts a personal narrative tracing the critical events in the initiation, development, and propagation of multiphase science and computational fluid dynamics in its historical context; Reveals the amazing chain of incidents and coincidences but for which multiphase science and computational fluid dynamics would never have evolved; Presents in narrative form many facets of multiphase science (MPS), including sand grains, bubbles, and water droplets and how MPS differs from single-phase science; Describes the development of what came to be called the seriated loop (SLOOP) code, intend ed to replace the RELAP4 code, used to perform safety studies for and to license nuclear reactors and the politics of science that led to its demise
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Datensatz im Suchindex

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adam_text	CONTENTS 1 INTRODUCTION ............................................. 1 1.1 AN APOLOGIA ........................................ 3 REFERENCES ............................................... 4 PART I PREDESTINATION 2 CLEVELAND STATE UNIVERSITY, CLEVELAND 1959-1964 ............... 7 2.1 ELMORE S. PETTYJOHN, FORMER DIRECTOR OF THE INSTITUTE OF GAS TECHNOLOGY, IS ON THE FACULTY OF THE FENN COLLEGE CHEMICAL ENGINEERING DEPARTMENT ............................... 13 REFERENCES ............................................... 18 3 ILLINOIS INSTITUTE OF TECHNOLOGY (IIT), CHICAGO 1964-1970 ........ 21 3.1 PROFESSOR GIDASPOW IS ON THE FACULTY OF THE GAS TECHNOLOGY DEPARTMENT ......................................... 25 3.2 CHARLIE SOLBRIG IS ON THE FACULTY OF THE GAS TECHNOLOGY DEPARTMENT ......................................... 29 REFERENCES ............................................... 31 PART II IN A STATE FAR AWAY 1970-1977 4 THE SEEDS ARE SOWN BY LARRY YBARRONDO AND CHARLIE SOLBRIG IN A STATE FAR AWAY, IDAHO FALLS, IDAHO ...................... 35 4.1 THE LOSS-OF-COOLANT ACCIDENT AND THE RELAP SERIES OF CODES ............................................. 39 4.2 A MYSTERIOUS STRANGER POINTS THE WAY FORWARD ............. 43 4.3 THE DEVELOPMENT OF A TOTALLY NEW SET OF TWO-PHASE EQUATIONS .......................................... 44 REFERENCES ............................................... 48 R1 BIBIIOTHEK DEUTSCHES MUSEUM HLTINCHE A XII CONTENTS 5 PROJECT DEVELOPMENT BEGINS ................................ 51 5.1 I AM HIRED BY CHARLIE SOLBRIG TO WORK ON THE SLOOP (SERIATED LOO) CODE AT AEROJET NUCLEAR COMPANY (ANC) .... 55 REFERENCES ............................................... 64 6 CHARACTERISTICS ANALYSIS OF THE ONE-DIMENSIONAL, TWO-FLUID PARTIAL DIFFERENTIAL EQUATIONS (PDE S) DEVELOPED BY CHARLIE SOLBRIG AND DAN HUGHES ................................... 67 6.1 DIMITRI S SABBATICAL AND THE DISCOVERY OF ILL-POSEDNESS (COMPLEX CHARACTERISTICS) OF THE PDE S ................... 72 6.2 CHARACTERISTICS ANALYSES USING FORMAC ................. 77 REFERENCES ............................................... 82 7 THE SLOOP CODE DEVELOPMENT ............................. 85 7.1 DIMITRI S CONTRACT IS EXTENDED .......................... 89 7.2 COMPARISON OF PROTOTYPE TWO-PHASE SLOOP CODE WITH ANALYTICAL SOLUTIONS .................................. 89 7.3 ATTEMPTS TO DEVELOP TWO-PRESSURE MODELS HAVING REAL CHARACTERISTICS ....................................... 93 7.4 SUMMARY OF SCORE, SPLEN, EXECUTIVE, ZVUT, EVET, UVET, ADF, SSUVET, AND UVUT CODES ................ 96 7.5 INVESTIGATIONS INTO WHY THE PRESSURE KEPT GOING TO ZERO FOR STANDARD PROBLEM 1 ................................ 99 7.6 THE LOS ALAMOS/AEROJET MEETING OF AUGUST 27,1974 ........ 105 7.7 SLOOP CODE DEVELOPMENT IMPLODES SCATTERING MOST OF THE PARTICIPANTS .................................... 113 REFERENCES ............................................... 114 8 THE CHARACTERISTICS PAPER CAPER ............................ 119 8.1 THE JOURNAL OF FLUID MECHANICS PAPER .................... 120 8.2 THE 1975 ASME WINTER ANNUAL MEETING PAPER AND PRESENTATION ..................................... 121 8.3 THE NUCLEAR SCIENCE AND ENGINEERING PAPER ................ 128 REFERENCES ............................................... 133 PART III THE RISE OF CFD CODES 9 RETRAN IS INITIATED AT ENERGY INCORPORATED FOR EPRI HIRING THE CORE SLOOP CODE PARTICIPANTS ......................... 137 REFERENCES ............................................... 145 10 RELAP5 IS INITIATED BY VIC RANSOM AND DICK WAGNER FUNDED BY LARRY YBARRONDO ...................................... 149 REFERENCES ............................................... 155 CONTENTS XLII 11 DOE STARTS CODE DEVELOPMENT AT SYSTEMS, SCIENCE AND SOFTWARE AND JAYCOR TO ADDRESS THE ENERGY CRISIS CAUSED BY THE OR EMBARGOS ............................................... 157 REFERENCES ............................................... 159 12 LIT CODE BEGINS USING LOS ALAMOS K-FIX CODE .............. 161 12.1 K-FIX CODE OBTAINED FROM BILL RIVARD TO START IIT CODE ..... 164 REFERENCES ............................................... 172 13 METC STARTS EROSION R&D COOPERATIVE VENTURE AND MFIX CODE DEVELOPMENT USING FLUFIX CODE ...................... 175 13.1 THE METC COOPERATIVE R&D VENTURE .................... 175 13.2 METC STARTS THE MFIX CODE DEVELOPMENT ................ 181 REFERENCES ............................................... 182 14 THE RISE OF THE FIRST COMMERCIAL CFD CODES: PHOENICS, FLUENT, FIDAP, CFX, FLOW-3D, AND STAR-CD ............ 185 14.1 PHOENICS CODE .................................... 185 14.2 FLUENT, FIDAP, CFX, AND FLOW-3D CODES ............. 185 14.3 STAR-CD .......................................... 186 REFERENCES ............................................... 187 PART IV ATTEMPTS TO ESTABLISH A NATIONAL PROGRAM FOR MULTIPHASE FLOW RESEARCH 15 THE FAILURE OF ARGONNE NATIONAL LABORATORY TO ESTABLISH THE MULTIPHASE FLOW RESEARCH INSTITUTE .......................... 191 REFERENCES ............................................... 195 16 DOE OIT VIRTUAL CENTER FOR MULTIPHASE DYNAMICS EFFORT BEGINS-BECOMES THE MULTIPHASE FLUID DYNAMICS RESEARCH CONSORTIUM ............................................. 197 16.1 COMPUTATIONAL FLUID DYNAMICS TECHNOLOGY ROADMAP PUBLISHED AS PART OF VISION 2020 ....................... 199 16.2 THE ATTEMPT TO ESTABLISH A VIRTUAL TECHNOLOGY MULTIPHASE LABORATORY ......................................... 200 16.2.1 FIRST VTC KICKOFF MEETING NOVEMBER 28,1995.... 201 16.2.2 LABORATORY COORDINATING COUNCIL MEETING DECEMBER 6,1995 ............................. 202 16.2.3 SECOND VTC MEETING DECEMBER 13,1995 .......... 203 16.2.4 THIRD VTC MEETING FEBRUARY 21,1996............. 205 16.2.5 NATIONAL WORKSHOP ON COMPUTATIONAL FLUID DYNAMICS AND MULTIPHASE FLOW MODELING OCTOBER 30-31,1996 ........................... 208 16.3 THE FOUR-YEAR MULTIPHASE FLUID DYNAMICS RESEARCH CONSORTIUM (MFDRC) IS FORMED ........................ 209 XIV CONTENTS 16.4 VISION 2020 CONTRIBUTES TO COMMERCIAL SUCCESS ............ 215 16.4.1 COLLABORATION PAYS OFF--MFDRC PUSHES THE FRONTIER OF MODELING OF MATERIALS TRANSPORT ................ 215 16.5 RETURN ON INVESTMENT TEMPLATE ......................... 217 REFERENCES ............................................... 220 17 NETL INITIATES WORKSHOPS ON MULTIPHASE FLOW RESEARCH LATER CALLED MULTIPHASE FLOW SCIENCE ........................ 221 REFERENCES ............................................... 222 PART V MULIPHASE CONFERENCES AND GIDASPOW S BOOKS 18 CONFERENCES AND WORKSHOPS ADDRESSING MULTIPHASE NEEDS AND PROBLEMS BEGIN DUE TO PROFESSOR DIMITRI GIDASPOW S INITIATIVES ............................................... 227 REFERENCES ............................................... 228 19 GIDASPOW PUBLISHES HIS TWO MULTIPHASE BOOKS ................ 231 19.1 MULTIPHASE FLOW AND FLUIDIZATION CONTINUUM AND KINETIC THEORY DESCRIPTIONS .................................. 231 19.2 COMPUTATIONAL TECHNIQUES: THE MULTIPHASE CFD APPROACH AND GREEN ENERGY TECHNOLOGIES ......................... 232 REFERENCES ............................................... 233 20 CONCLUSION-WHAT DOES THE FUTURE HOLD? .................... 235 REFERENCES ............................................... 239 APPENDICES .................................................. 241 APPENDIX A: ACRONYMS AND ABBREVIATIONS ........................ 241 APPENDIX B: HERBERT KOUTS 26`H WATER REACTOR SAFETY INFORMATION MEETING SPEECH, 1998 .............................. 245 APPENDIX C: REVIEWS FOR THE JOURNAL OF FLUID MECHANICS MANUSCRIPT ONE-DIMENSIONAL TWO-PHASE FLOW EQUATIONS AND THEIR CHARACTERISTICS .......................... 251 APPENDIX D: EXTRACTS FROM REVIEWS OF THE MANUSCRIPT CHARACTERISTICS AND STABILITY ANALYSIS OF TRANSIENT ONE-DIMENSIONAL TWO-PHASE EQUATIONS AND THEIR FINITE DIFFERENCE APPROXIMATIONS BY D. GIDASPOW, R. W. LYCZKOWSKI, C. W. SOLBRIG AND E. D. HUGHES FOR THE SESSION FUNDAMENTALS OF TWO-PHASE FLOW AT THE 1975 WINTER ANNUAL ASME MEETING, HOUSTON, NOV. 30-DEC. 4,1975 ............................... 257 CONTENTS XV APPENDIX E: DISCUSSION ON THE ASME PAPER 75-WA/HT-25 CHARACTERISTICS AND STABILITY ANALYSIS OF TRANSIENT ONE-DIMENSIONAL TWO-PHASE EQUATIONS AND THEIR FINITE DIFFERENCE APPROXIMATIONS BY D. GIDASPOW, R. W. LYCZKOWSKI, C. W. SOLBRIG AND E. D. HUGHES FOR THE SESSION FUNDAMENTALS OF TWO-PHASE FLOW AT THE 1975 WINTER ANNUAL ASME MEETING, HOUSTON, NOV. 30-DEC. 4,1975 ............................... 259 APPENDIX F: JOHN RAMSHAW S UNPUBLISHED COMMENTARY ON HIS PAPER WITH JOHN TRAPP .................................. 271 APPENDIX G: CARL HOCEVAR S LETTER OF RESIGNATION ON SEPTEMBER 21,1974 TO DIXIE LEE RAY, CHAIR OF THE ATOMIC ENERGY COMMISSION ......................... 275 APPENDIX H: CHEMICAL PROCESS CFD USERS GROUP CHARTER .......... 277 APPENDIX I: MEMORANDUM OF COOPERATION FOR THE DOE VIRTUAL TECHNOLOGY CENTER FOR MULTIPHASE DYNAMICS (VCMD).... 279 APPENDIX J: REVIEW AND COMMENTS ON THE 2006 NETL TECHNOLOGY ROADMAP ........................................ 283 NOTES ...................................................... 323 INDEX ...................................................... 329
adam_txt	CONTENTS 1 INTRODUCTION . 1 1.1 AN APOLOGIA . 3 REFERENCES . 4 PART I PREDESTINATION 2 CLEVELAND STATE UNIVERSITY, CLEVELAND 1959-1964 . 7 2.1 ELMORE S. PETTYJOHN, FORMER DIRECTOR OF THE INSTITUTE OF GAS TECHNOLOGY, IS ON THE FACULTY OF THE FENN COLLEGE CHEMICAL ENGINEERING DEPARTMENT . 13 REFERENCES . 18 3 ILLINOIS INSTITUTE OF TECHNOLOGY (IIT), CHICAGO 1964-1970 . 21 3.1 PROFESSOR GIDASPOW IS ON THE FACULTY OF THE GAS TECHNOLOGY DEPARTMENT . 25 3.2 CHARLIE SOLBRIG IS ON THE FACULTY OF THE GAS TECHNOLOGY DEPARTMENT . 29 REFERENCES . 31 PART II IN A STATE FAR AWAY 1970-1977 4 THE SEEDS ARE SOWN BY LARRY YBARRONDO AND CHARLIE SOLBRIG IN A STATE FAR AWAY, IDAHO FALLS, IDAHO . 35 4.1 THE "LOSS-OF-COOLANT ACCIDENT" AND THE RELAP SERIES OF CODES . 39 4.2 A MYSTERIOUS STRANGER POINTS THE WAY FORWARD . 43 4.3 THE DEVELOPMENT OF A TOTALLY NEW SET OF TWO-PHASE EQUATIONS . 44 REFERENCES . 48 R1 BIBIIOTHEK DEUTSCHES MUSEUM HLTINCHE'A XII CONTENTS 5 PROJECT DEVELOPMENT BEGINS . 51 5.1 I AM HIRED BY CHARLIE SOLBRIG TO WORK ON THE SLOOP (SERIATED LOO) CODE AT AEROJET NUCLEAR COMPANY (ANC) . 55 REFERENCES . 64 6 CHARACTERISTICS ANALYSIS OF THE ONE-DIMENSIONAL, TWO-FLUID PARTIAL DIFFERENTIAL EQUATIONS (PDE'S) DEVELOPED BY CHARLIE SOLBRIG AND DAN HUGHES . 67 6.1 DIMITRI'S SABBATICAL AND THE DISCOVERY OF ILL-POSEDNESS (COMPLEX CHARACTERISTICS) OF THE PDE'S . 72 6.2 CHARACTERISTICS ANALYSES USING FORMAC . 77 REFERENCES . 82 7 THE SLOOP CODE DEVELOPMENT . 85 7.1 DIMITRI'S CONTRACT IS EXTENDED . 89 7.2 COMPARISON OF PROTOTYPE TWO-PHASE SLOOP CODE WITH ANALYTICAL SOLUTIONS . 89 7.3 ATTEMPTS TO DEVELOP TWO-PRESSURE MODELS HAVING REAL CHARACTERISTICS . 93 7.4 SUMMARY OF SCORE, SPLEN, EXECUTIVE, ZVUT, EVET, UVET, ADF, SSUVET, AND UVUT CODES . 96 7.5 INVESTIGATIONS INTO WHY THE PRESSURE KEPT GOING TO ZERO FOR STANDARD PROBLEM 1 . 99 7.6 THE LOS ALAMOS/AEROJET MEETING OF AUGUST 27,1974 . 105 7.7 SLOOP CODE DEVELOPMENT IMPLODES SCATTERING MOST OF THE PARTICIPANTS . 113 REFERENCES . 114 8 THE CHARACTERISTICS PAPER CAPER . 119 8.1 THE JOURNAL OF FLUID MECHANICS PAPER . 120 8.2 THE 1975 ASME WINTER ANNUAL MEETING PAPER AND PRESENTATION . 121 8.3 THE NUCLEAR SCIENCE AND ENGINEERING PAPER . 128 REFERENCES . 133 PART III THE RISE OF CFD CODES 9 RETRAN IS INITIATED AT ENERGY INCORPORATED FOR EPRI HIRING THE CORE SLOOP CODE PARTICIPANTS . 137 REFERENCES . 145 10 RELAP5 IS INITIATED BY VIC RANSOM AND DICK WAGNER FUNDED BY LARRY YBARRONDO . 149 REFERENCES . 155 CONTENTS XLII 11 DOE STARTS CODE DEVELOPMENT AT SYSTEMS, SCIENCE AND SOFTWARE AND JAYCOR TO ADDRESS THE ENERGY CRISIS CAUSED BY THE OR EMBARGOS . 157 REFERENCES . 159 12 LIT CODE BEGINS USING LOS ALAMOS' K-FIX CODE . 161 12.1 K-FIX CODE OBTAINED FROM BILL RIVARD TO START IIT CODE . 164 REFERENCES . 172 13 METC STARTS EROSION R&D COOPERATIVE VENTURE AND MFIX CODE DEVELOPMENT USING FLUFIX CODE . 175 13.1 THE METC COOPERATIVE R&D VENTURE . 175 13.2 METC STARTS THE MFIX CODE DEVELOPMENT . 181 REFERENCES . 182 14 THE RISE OF THE FIRST COMMERCIAL CFD CODES: PHOENICS, FLUENT, FIDAP, CFX, FLOW-3D, AND STAR-CD . 185 14.1 PHOENICS CODE . 185 14.2 FLUENT, FIDAP, CFX, AND FLOW-3D CODES . 185 14.3 STAR-CD . 186 REFERENCES . 187 PART IV ATTEMPTS TO ESTABLISH A NATIONAL PROGRAM FOR MULTIPHASE FLOW RESEARCH 15 THE FAILURE OF ARGONNE NATIONAL LABORATORY TO ESTABLISH THE MULTIPHASE FLOW RESEARCH INSTITUTE . 191 REFERENCES . 195 16 DOE OIT VIRTUAL CENTER FOR MULTIPHASE DYNAMICS EFFORT BEGINS-BECOMES THE MULTIPHASE FLUID DYNAMICS RESEARCH CONSORTIUM . 197 16.1 COMPUTATIONAL FLUID DYNAMICS TECHNOLOGY ROADMAP PUBLISHED AS PART OF VISION 2020 . 199 16.2 THE ATTEMPT TO ESTABLISH A VIRTUAL TECHNOLOGY MULTIPHASE LABORATORY . 200 16.2.1 FIRST VTC "KICKOFF' MEETING NOVEMBER 28,1995. 201 16.2.2 LABORATORY COORDINATING COUNCIL MEETING DECEMBER 6,1995 . 202 16.2.3 SECOND VTC MEETING DECEMBER 13,1995 . 203 16.2.4 THIRD VTC MEETING FEBRUARY 21,1996. 205 16.2.5 NATIONAL WORKSHOP ON COMPUTATIONAL FLUID DYNAMICS AND MULTIPHASE FLOW MODELING OCTOBER 30-31,1996 . 208 16.3 THE FOUR-YEAR MULTIPHASE FLUID DYNAMICS RESEARCH CONSORTIUM (MFDRC) IS FORMED . 209 XIV CONTENTS 16.4 VISION 2020 CONTRIBUTES TO COMMERCIAL SUCCESS . 215 16.4.1 COLLABORATION PAYS OFF--MFDRC PUSHES THE FRONTIER OF MODELING OF MATERIALS TRANSPORT . 215 16.5 RETURN ON INVESTMENT TEMPLATE . 217 REFERENCES . 220 17 NETL INITIATES WORKSHOPS ON MULTIPHASE FLOW RESEARCH LATER CALLED MULTIPHASE FLOW SCIENCE . 221 REFERENCES . 222 PART V MULIPHASE CONFERENCES AND GIDASPOW'S BOOKS 18 CONFERENCES AND WORKSHOPS ADDRESSING MULTIPHASE NEEDS AND PROBLEMS BEGIN DUE TO PROFESSOR DIMITRI GIDASPOW'S INITIATIVES . 227 REFERENCES . 228 19 GIDASPOW PUBLISHES HIS TWO MULTIPHASE BOOKS . 231 19.1 MULTIPHASE FLOW AND FLUIDIZATION CONTINUUM AND KINETIC THEORY DESCRIPTIONS . 231 19.2 COMPUTATIONAL TECHNIQUES: THE MULTIPHASE CFD APPROACH AND GREEN ENERGY TECHNOLOGIES . 232 REFERENCES . 233 20 CONCLUSION-WHAT DOES THE FUTURE HOLD? . 235 REFERENCES . 239 APPENDICES . 241 APPENDIX A: ACRONYMS AND ABBREVIATIONS . 241 APPENDIX B: HERBERT KOUTS' 26`H WATER REACTOR SAFETY INFORMATION MEETING SPEECH, 1998 . 245 APPENDIX C: REVIEWS FOR THE JOURNAL OF FLUID MECHANICS MANUSCRIPT "ONE-DIMENSIONAL TWO-PHASE FLOW EQUATIONS AND THEIR CHARACTERISTICS" . 251 APPENDIX D: EXTRACTS FROM REVIEWS OF THE MANUSCRIPT "CHARACTERISTICS AND STABILITY ANALYSIS OF TRANSIENT ONE-DIMENSIONAL TWO-PHASE EQUATIONS AND THEIR FINITE DIFFERENCE APPROXIMATIONS" BY D. GIDASPOW, R. W. LYCZKOWSKI, C. W. SOLBRIG AND E. D. HUGHES FOR THE SESSION FUNDAMENTALS OF TWO-PHASE FLOW AT THE 1975 WINTER ANNUAL ASME MEETING, HOUSTON, NOV. 30-DEC. 4,1975 . 257 CONTENTS XV APPENDIX E: DISCUSSION ON THE ASME PAPER 75-WA/HT-25 "CHARACTERISTICS AND STABILITY ANALYSIS OF TRANSIENT ONE-DIMENSIONAL TWO-PHASE EQUATIONS AND THEIR FINITE DIFFERENCE APPROXIMATIONS" BY D. GIDASPOW, R. W. LYCZKOWSKI, C. W. SOLBRIG AND E. D. HUGHES FOR THE SESSION FUNDAMENTALS OF TWO-PHASE FLOW AT THE 1975 WINTER ANNUAL ASME MEETING, HOUSTON, NOV. 30-DEC. 4,1975 . 259 APPENDIX F: JOHN RAMSHAW'S UNPUBLISHED COMMENTARY ON HIS PAPER WITH JOHN TRAPP . 271 APPENDIX G: CARL HOCEVAR'S LETTER OF RESIGNATION ON SEPTEMBER 21,1974 TO DIXIE LEE RAY, CHAIR OF THE ATOMIC ENERGY COMMISSION . 275 APPENDIX H: CHEMICAL PROCESS CFD USERS GROUP CHARTER . 277 APPENDIX I: MEMORANDUM OF COOPERATION FOR THE DOE VIRTUAL TECHNOLOGY CENTER FOR MULTIPHASE DYNAMICS (VCMD). 279 APPENDIX J: REVIEW AND COMMENTS ON THE 2006 NETL TECHNOLOGY ROADMAP . 283 NOTES . 323 INDEX . 329
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contents	1. Introduction -- Part I. Predestination. 2. Cleveland State University, Cleveland 1959-1964 ; 3. Illinois Institute of Technology (IIT), Chicago 1964-1970 -- Part II. In a state far away 1970-1977 -- 4. The seeds are sown by Larry Ybarrondo in a state far away, Idaho Falls, Idaho ; 5. Project development begins ; 6. Characteristics analysis of the one-dimensional, two-fluid partial differential equations (PDEs) developed by Chuck Solbrig and Dan Hughes ; 7. The SLOOP code development ; 8. The characteristics paper caper -- Part III. The rise of CFD codes. 9. RETRAN is initiated at Energy Incorporated for EPRI hiring the core SLOOP code participants ; 10. RELAP5 is initiated by Vic Ransom and Dick Wagner funded by Larry Ybarrondo ; 11. DOE starts code development at Systems, Science and Software and Jaycor to address the energy crisis caused by the oil embargos ; 12. IIT code begins using Los Alamos' K-FIX code ; 13. METC starts erosion R & D cooperative venture and MFIX code development using FLUFIX code ; 14. The rise of the first commerical CFD codes: PHOENICS, FLUENT, FIDAP, CFX, FLOW-3D, and STAR-CD -- Part IV. Attempts to establish a national program for multiphase flow research. 15. The failure of Argonne National Laboratory to establish the Multiphase Flow Research Institute ; 16. DOE OIT virtual center for multiphase dynamics effort begins, becomes the Multiphase Fluid Dynamics Research Consortium ; 17. NETL initiates workshops on multiphase flow research later called multiphase flow science -- Part V. Multiphase conferences and Gidaspow's books. 18. Conferences and workshops addressing multiphase needs and problems begin due to Professor Dimitri Gidaspow's initiatives ; 19. Gidaspow publishes his two multiphase books ; 20. Conclusion, what does the future hold? -- Appendices
ctrlnum	(OCoLC)1414544540 (DE-599)BVBBV049384921
era	Geschichte gnd
era_facet	Geschichte
format	Book
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id	DE-604.BV049384921
illustrated	Illustrated
index_date	2024-07-03T22:59:53Z
indexdate	2024-07-10T10:05:35Z
institution	BVB
isbn	9783319882581
language	English
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owner	DE-210
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physical	xvii, 334 Seiten Illustrationen, Diagramme 24 cm
publishDate	2018
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publisher	Springer
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spelling	Lyczkowski, Robert W. Verfasser (DE-588)1225380359 aut The history of multiphase science and computational fluid dynamics a personal memoir Robert W. Lyczkowski Cham, Switzerland Springer ©2018 xvii, 334 Seiten Illustrationen, Diagramme 24 cm txt rdacontent n rdamedia nc rdacarrier Mechanical engineering series 1. Introduction -- Part I. Predestination. 2. Cleveland State University, Cleveland 1959-1964 ; 3. Illinois Institute of Technology (IIT), Chicago 1964-1970 -- Part II. In a state far away 1970-1977 -- 4. The seeds are sown by Larry Ybarrondo in a state far away, Idaho Falls, Idaho ; 5. Project development begins ; 6. Characteristics analysis of the one-dimensional, two-fluid partial differential equations (PDEs) developed by Chuck Solbrig and Dan Hughes ; 7. The SLOOP code development ; 8. The characteristics paper caper -- Part III. The rise of CFD codes. 9. RETRAN is initiated at Energy Incorporated for EPRI hiring the core SLOOP code participants ; 10. RELAP5 is initiated by Vic Ransom and Dick Wagner funded by Larry Ybarrondo ; 11. DOE starts code development at Systems, Science and Software and Jaycor to address the energy crisis caused by the oil embargos ; 12. IIT code begins using Los Alamos' K-FIX code ; 13. METC starts erosion R & D cooperative venture and MFIX code development using FLUFIX code ; 14. The rise of the first commerical CFD codes: PHOENICS, FLUENT, FIDAP, CFX, FLOW-3D, and STAR-CD -- Part IV. Attempts to establish a national program for multiphase flow research. 15. The failure of Argonne National Laboratory to establish the Multiphase Flow Research Institute ; 16. DOE OIT virtual center for multiphase dynamics effort begins, becomes the Multiphase Fluid Dynamics Research Consortium ; 17. NETL initiates workshops on multiphase flow research later called multiphase flow science -- Part V. Multiphase conferences and Gidaspow's books. 18. Conferences and workshops addressing multiphase needs and problems begin due to Professor Dimitri Gidaspow's initiatives ; 19. Gidaspow publishes his two multiphase books ; 20. Conclusion, what does the future hold? -- Appendices This book tells the story of how the science of computational multiphase flow began in an effort to better analyze hypothetical light water power reactor accidents, including the "loss of coolant" accident. Written in the style of a memoir by an author with 40 years' engineering research experience in computer modeling of fluidized beds and slurries, multiphase computational fluid dynamics, and multiphase flow, most recently at Argonne National Laboratory, the book traces how this new science developed during this time into RELAP5 and other computer programs to encompass realistic descriptions of phenomena ranging from fluidized beds for energy and chemicals production, slurry transport, pyroclastic flow from volcanoes, hemodynamics of blood-borne cells, and flow of granular particulates. Such descriptions are not possible using the classical single-phase Navier-Stokes equations. Whereas many books on computational techniques and computational fluid dynamics have appeared, they do not trace the historical development of the science in any detail, and none touch on the beginnings of multiphase science. A robust, process-rich account of technologic evolution, the book is ideal for students and practitioners of mechanical, chemical, nuclear engineering, and the history of science and technology. Imparts a personal narrative tracing the critical events in the initiation, development, and propagation of multiphase science and computational fluid dynamics in its historical context; Reveals the amazing chain of incidents and coincidences but for which multiphase science and computational fluid dynamics would never have evolved; Presents in narrative form many facets of multiphase science (MPS), including sand grains, bubbles, and water droplets and how MPS differs from single-phase science; Describes the development of what came to be called the seriated loop (SLOOP) code, intend ed to replace the RELAP4 code, used to perform safety studies for and to license nuclear reactors and the politics of science that led to its demise Geschichte gnd rswk-swf Numerische Strömungssimulation (DE-588)4690080-9 gnd rswk-swf Mehrphasenströmung (DE-588)4169315-2 gnd rswk-swf Multiphase flow / History Computational fluid dynamics / History Écoulement polyphasique / Histoire Dynamique des fluides numérique / Histoire Computational fluid dynamics Multiphase flow History Numerische Strömungssimulation (DE-588)4690080-9 s Mehrphasenströmung (DE-588)4169315-2 s Geschichte z DE-604 Erscheint auch als Online-Ausgabe 978-3-319-66502-3 Digitalisierung Deutsches Museum application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034712468&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Lyczkowski, Robert W. The history of multiphase science and computational fluid dynamics a personal memoir 1. Introduction -- Part I. Predestination. 2. Cleveland State University, Cleveland 1959-1964 ; 3. Illinois Institute of Technology (IIT), Chicago 1964-1970 -- Part II. In a state far away 1970-1977 -- 4. The seeds are sown by Larry Ybarrondo in a state far away, Idaho Falls, Idaho ; 5. Project development begins ; 6. Characteristics analysis of the one-dimensional, two-fluid partial differential equations (PDEs) developed by Chuck Solbrig and Dan Hughes ; 7. The SLOOP code development ; 8. The characteristics paper caper -- Part III. The rise of CFD codes. 9. RETRAN is initiated at Energy Incorporated for EPRI hiring the core SLOOP code participants ; 10. RELAP5 is initiated by Vic Ransom and Dick Wagner funded by Larry Ybarrondo ; 11. DOE starts code development at Systems, Science and Software and Jaycor to address the energy crisis caused by the oil embargos ; 12. IIT code begins using Los Alamos' K-FIX code ; 13. METC starts erosion R & D cooperative venture and MFIX code development using FLUFIX code ; 14. The rise of the first commerical CFD codes: PHOENICS, FLUENT, FIDAP, CFX, FLOW-3D, and STAR-CD -- Part IV. Attempts to establish a national program for multiphase flow research. 15. The failure of Argonne National Laboratory to establish the Multiphase Flow Research Institute ; 16. DOE OIT virtual center for multiphase dynamics effort begins, becomes the Multiphase Fluid Dynamics Research Consortium ; 17. NETL initiates workshops on multiphase flow research later called multiphase flow science -- Part V. Multiphase conferences and Gidaspow's books. 18. Conferences and workshops addressing multiphase needs and problems begin due to Professor Dimitri Gidaspow's initiatives ; 19. Gidaspow publishes his two multiphase books ; 20. Conclusion, what does the future hold? -- Appendices Numerische Strömungssimulation (DE-588)4690080-9 gnd Mehrphasenströmung (DE-588)4169315-2 gnd
subject_GND	(DE-588)4690080-9 (DE-588)4169315-2
title	The history of multiphase science and computational fluid dynamics a personal memoir
title_auth	The history of multiphase science and computational fluid dynamics a personal memoir
title_exact_search	The history of multiphase science and computational fluid dynamics a personal memoir
title_exact_search_txtP	The history of multiphase science and computational fluid dynamics a personal memoir
title_full	The history of multiphase science and computational fluid dynamics a personal memoir Robert W. Lyczkowski
title_fullStr	The history of multiphase science and computational fluid dynamics a personal memoir Robert W. Lyczkowski
title_full_unstemmed	The history of multiphase science and computational fluid dynamics a personal memoir Robert W. Lyczkowski
title_short	The history of multiphase science and computational fluid dynamics
title_sort	the history of multiphase science and computational fluid dynamics a personal memoir
title_sub	a personal memoir
topic	Numerische Strömungssimulation (DE-588)4690080-9 gnd Mehrphasenströmung (DE-588)4169315-2 gnd
topic_facet	Numerische Strömungssimulation Mehrphasenströmung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034712468&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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