Energy : money, materials and engineering /

Energy: Money, Materials and Engineering.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores Corporativos: Institution of Chemical Engineers (Great Britain), American Institute of Chemical Engineers
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Rugby, Warks : New York : Institution of Chemical Engineers ; Distributed by Pergamon Press, 1982.
Edición:1st ed.
Colección:EFCE publication series ; no. 23.
Symposium series (Institution of Chemical Engineers (Great Britain)) ; no. 78.
Temas:
Power resources > Congresses.
Energy conservation > Congresses.
Chemical engineering > Congresses.
Ressources �energ�etiques > Congr�es.
�Economies d'�energie > Congr�es.
G�enie chimique > Congr�es.
Chemical engineering.
Energy conservation.
Power resources.
Energy sources
Congress
Conference papers and proceedings.
Actes de congr�es.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Energy: Money, Materials and Engineering; Copyright Page; Table of Contents; Part I: PLENARY PAPERS Introducing the Six Themes of the Symposium; Chapter 1. THERMODYNAMICS AND ECONOMICS
  • IS THERE A CONFLICT?; INTRODUCTION; Chapter 2. THERMODYNAMICS AND ECONOMICS: IS THERE A CONFLICT?; DECISIONS; APPLICATION; EXAMPLES; CONCLUSION; REFERENCES; Chapter 3. THE ECONOMIC CONTAINMENT AND APPLICATION OF ENERGY THE CHEMICAL ENGINEER'S QUEST FOR EFFICIENCY
  • REFERENCES; Chapter 4. ENERGY AND THE ENVIRONMENT; INTRODUCTION; THE ENERGY FUTURE
  • NEW ENERGY TECHNOLOGIES AND THEIR ENVIRONMENTAL IMPACTSOTHER ENVIRONMENTAL IMPACTS; SOCIETAL TRADEOFFS; SUMMARY; Chapter 5. SOME ASPECTS OP ENERGY CONVERSION AS EXEMPLIFIED BY GASIFICATION AND LIQUEFACTION OF BROWN COAL; INTRODUCTION; GASIFICATION OF BROWN COAL; CONCLUSIONS; REFERENCES; Chapter 6. ENERGY FLUX AND ENERGY STORAGE IN HEAT TRANSFORMATION DEVICES; 1 . INTRODUCTION; 2. THE RANKINE-SORPTION CYCLE; 3. PRINCIPLE OF SORPTION HEAT STORAGE; 4 . WORKING FLUIDS FOR ABSORBER MACHINES; 5. COMPRESSION DEVICES; 6. POWER CYCLES; 7. PROCESS SYNTHESIS FOR HEAT TRANSFORMATION DEVICES
  • 8. CONCLUSIONSREFERENCES; Chapter 7. FUELS FROM BIOMASS; INTRODUCTION; WHY MAKE FUELS FROM BIOMASS?; THE PRESENT SITUATION; WHAT WE NEED TO DO; CONCLUSIONS; REFERENCES; Part II: THEME 1 Thermodynamics & Economics
  • Is there a Conflict?; Chapter 8. IS THE ""VALUE"" OF A SOURCE OF ENERGY BASED ON ENTHALPY, ENTROPY, ECONOMY OR ECOLOGY? An example of application : the optimisation of a heat exchanger; INTRODUCTION; ENERGY VALUE OF AN INDUSTRIAL OPERATION; OPTIMISATION OF A HEAT EXCHANGER; CONCLUSION; NOTATIONS; REFERENCES; Chapter 9. THERMODYNAMIC AND MONETARY QUANTITIES, CAN THEY BE RELATED?
  • Thermodynamic Efficiency of Chemical Processes. Thermodynamic versus Economic Optimum.; Coexistence of Conflicting Objectives.; References:; Chapter 10. ENERGY ANALYSIS AS AN AID TO PUBLIC DECISION MAKING; INTRODUCTION; TECHNIQUES; APPLICATIONS; REFERENCES; Chapter 11. A THERMODYNAMIC CONSTRAINT ON THE RATE OF GLOBAL DEVELOPMENT; INTRODUCTION; References:; Chapter 12. EXERGY EFFICIENCY OF INDUSTRIAL ENERGY USE; 1. INTRODUCTION; 2. INDUSTRIAL ENERGY USE IN THE NETHERLANDS AND IN THE FRG; 3. CHARACTERIZATION OF THE ENERGY SUPPLY SYSTEM; 4. CHARACTERIZATION OF THE ENERGY ACCEPTING SYSTEM
  • 5. OPTIMIZING THE TOTAL SYSTEMACKNOWLEDGEMENT; REFERENCES; Part III: THEME 2 The Economic Containment and Application of Energy; Chapter 13. SAVING ENERGY IN A LARGE CHEMICAL FACTORY AND THE IMPACT ON THE ENERGY SUPPLY OF THE WORKS; Deveiopment of the energy demand and how it is met; Typical energy-saving measures
  • examples; Necessary minimum steam capacity; Necessary minimum generation of electricity on site; Effects on the supply structure; Effect on the power stations; Effect of the transfer price structure; Assessment of the profitability of energy-saving steps; Conclusions and summary

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