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Applied industrial energy and environmental management / / Zoran K. Morvay, Duésan D. Gvozdenac
Applied industrial energy and environmental management / / Zoran K. Morvay, Duésan D. Gvozdenac
Autore Morvay Zoran K.
Pubbl/distr/stampa Chichester, West Sussex, U.K. ; , : Wiley, , 2008
Descrizione fisica 1 online resource (458 p.)
Disciplina 658.2/6
658.26
Altri autori (Persone) GvozdenacDuésan D
Collana Wiley - iee
Soggetto topico Factories - Energy conservation
Industries - Energy conservation
Environmental protection
ISBN 1-281-93951-X
9786611939519
0-470-71437-9
0-470-71438-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto About the Authors -- Preface -- Introductory Chapter: Framework for Energy and Environmental Management in Industry -- 1. Introduction -- 2. Energy Use by Industrial Operations -- 3. Environmental Impacts of Industrial Operations -- 4. End Use Energy Efficiency -- 5. Efficiency of Using Raw Materials -- 6. Global Energy Policy Framework -- 7. Energy and Environmental Policies -- 7.1 Integrated Pollution Prevention and Control (IPPC) -- 7.2 Energy Markets Deregulation and Liberalization -- 7.3 Consumers' Choice in the Liberalized Energy Market -- 7.4 Emissions Trading -- 7.5 Compulsory Energy Efficiency Programs -- 7.6 Voluntary Programs -- 8. Industries' Self-Motivation for Effective Energy and Environmental Performance -- 9. Environmentally Responsible Investing -- 10. Where to Look for Energy and Environmental Performance Improvements -- 11. Bibliography -- Part I: Energy and Environmental Management System in Industry (EEMS) -- 1. Introducing the Energy and Environmental Management System -- 1.1 Introduction -- 1.2 Definition of terms -- 1.3 Energy and Environmental Management System -- 1.4 Objectives of Energy and Environmental Management -- 1.5 Dynamics of Energy and Environmental Management -- 1.6 Human Aspects of Energy and Environmental Management -- 1.7 Initiating Training, Awareness and Motivation Programs -- 1.8 Bibliography -- 2. The Energy and Environmental Management Concept -- 2.1 Introduction -- 2.2 Interactions between Energy and Production -- 2.3 Energy Cost Centers -- 2.4 Assigning Responsibilities for Energy and Environmental Performance -- 2.6 Effective Use of Energy and Environmental Performance Indicators -- 2.7 Concept of Energy and Environmental Management System -- 2.8 Context of Energy and Environmental Management -- 2.9 Bibliography -- 3. Relationship between Energy Use and Production Volume -- 3.1 Introduction -- 3.2 Energy/Production Relationship by Design -- 3.3 Energy/Production Relationship by Standard Operational Procedure -- 3.4 Presenting the Dynamics of the Energy/Production Relationship by Scatter Diagram.
3.5 Interpretation of Energy/Production Data Pattern on the Scatter Diagram -- 3.6 Statistical Methods for Energy/Production Variability Analysis -- 3.7 Meaning and Use of the Regression Line in Energy Performance Evaluation -- 3.8 Summary of Presenting and Analyzing the Energy/Production Relationship -- 3.9 Bibliography -- 4. Evaluating the Performance of Energy and Environmental Management Practice -- 4.1 Evaluation of Past Performance -- 4.2 Energy and Environmental Auditing -- 4.3 Evaluating Organizational Aspects -- 4.4 Evaluating Operational Aspects -- 4.5 Setting a Baseline for Monitoring Performance Improvements -- 4.6 Setting Initial Targets for Performance Improvement -- 4.7 Monitoring Energy and Environmental Performance -- 4.8 Verifying Performance Improvements - CUSUM Technique -- 4.9 Moving Toward Targets - Process of Change -- 4.10 Bibliography -- 5. Implementation of the Energy and Environmental Management System -- 5.1 Introduction -- 5.2 Phases of EEMS Implementation Process -- 5.3 Preparation and Planning -- 5.4 Implementation Plan -- 5.5 EEMS Operation -- 5.6 Learning Through EEMS Operation -- 5.7 Continuity and Communication -- 5.8 Integration of EEMS with Business Management System -- 6. Energy and Environmental Management as a Driver for Integrated Performance Management -- 6.1 Introduction -- 6.2 Integrated Performance Management in Operations -- 6.3 Strategic Aspects of Performance Management -- 6.4 Integrated Performance Measurement System -- 6.5 Integrated Performance Management -- 6.6 Conclusion -- 6.7 Bibliography -- Part II: Engineering Aspects of Industrial Energy Management -- 1. Introduction to Industrial Energy Systems -- 1.1 Introduction -- 1.2 Industrial Energy Systems Analysis -- 2 Industrial Steam System -- 2.1 System Description -- 2.1.1 Boilers -- 2.3 Principles of Performance Analysis -- 2.4 Analysis of Boiler Performance -- 2.5 Factors Influencing Boiler Performance -- 2.6 Opportunities for Boiler Performance Improvement -- 2.7 Software for Boiler Performance Analysis.
2.8 Boiler Performance Monitoring -- 2.9 Steam Distribution and Condensate Return System -- 2.10 Condensate Return System -- 2.11 Environmental Impacts -- 2.12 Bibliography -- 3. Industrial Electric Power System -- 3.1 Introduction -- 3.2 Description of Industrial Electric Power Systems -- 3.3 Basic Terms -- 3.4 Tariff System -- 3.5 Main Components of Industrial Electric Power Systems -- 3.6 Performance Assessment of Industrial Electric Power Systems -- 3.7 Performance Improvement Opportunities -- 3.8 Maintenance Considerations -- 3.9 Performance Monitoring -- 3.10 Environmental Impacts -- 3.11 Bibliography -- 4. Compressed Air System -- 4.1 System Description -- 4.2 Performance Analysis -- 4.3 Performance Improvement Opportunities -- 4.4 Performance Monitoring -- 4.5 Example: Detailed Energy Audit of Compressed Air System -- 4.6 Example: Comparison of Load/Unload and Pump-up Tests -- 4.7 Bibliography -- 5. Refrigeration System -- 5.1 Description of System -- 5.2 Performance Definitions -- 5.3 Performance Analysis -- 5.4 Performance Improvement Opportunities -- 5.5 Performance Monitoring -- 5.6 Example: Improvement of ChilledWater System Operation -- 5.7 Bibliography -- 6. Industrial Cogeneration -- 6.1 System Description -- 6.2 Principles of Operation -- 6.3 Types of Industrial Cogeneration Plants -- 6.4 Operational Modes of Cogeneration Systems -- 6.5 Performance Definition -- 6.6 Factors Influencing Performance -- 6.7 Economic Aspects of Cogeneration as a Performance Improvement Measure -- 6.8 Performance Assessment -- 6.9 Performance Monitoring and Improvement -- 6.10 Environmental Impacts 415 -- 6.11 Case Study: Drying Kiln (Gas Turbine Operation Philosophy Improvement) -- 6.12 Bibliography -- Part III: Toolbox - Fundamentals for Analysis and Calculation of Energy and Environmental Performance -- Index.
Record Nr. UNINA-9910144123703321
Morvay Zoran K.  
Chichester, West Sussex, U.K. ; , : Wiley, , 2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Applied industrial energy and environmental management / / Zoran K. Morvay, Duésan D. Gvozdenac
Applied industrial energy and environmental management / / Zoran K. Morvay, Duésan D. Gvozdenac
Autore Morvay Zoran K.
Pubbl/distr/stampa Chichester, West Sussex, U.K. ; , : Wiley, , 2008
Descrizione fisica 1 online resource (458 p.)
Disciplina 658.2/6
658.26
Altri autori (Persone) GvozdenacDuésan D
Collana Wiley - iee
Soggetto topico Factories - Energy conservation
Industries - Energy conservation
Environmental protection
ISBN 1-281-93951-X
9786611939519
0-470-71437-9
0-470-71438-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto About the Authors -- Preface -- Introductory Chapter: Framework for Energy and Environmental Management in Industry -- 1. Introduction -- 2. Energy Use by Industrial Operations -- 3. Environmental Impacts of Industrial Operations -- 4. End Use Energy Efficiency -- 5. Efficiency of Using Raw Materials -- 6. Global Energy Policy Framework -- 7. Energy and Environmental Policies -- 7.1 Integrated Pollution Prevention and Control (IPPC) -- 7.2 Energy Markets Deregulation and Liberalization -- 7.3 Consumers' Choice in the Liberalized Energy Market -- 7.4 Emissions Trading -- 7.5 Compulsory Energy Efficiency Programs -- 7.6 Voluntary Programs -- 8. Industries' Self-Motivation for Effective Energy and Environmental Performance -- 9. Environmentally Responsible Investing -- 10. Where to Look for Energy and Environmental Performance Improvements -- 11. Bibliography -- Part I: Energy and Environmental Management System in Industry (EEMS) -- 1. Introducing the Energy and Environmental Management System -- 1.1 Introduction -- 1.2 Definition of terms -- 1.3 Energy and Environmental Management System -- 1.4 Objectives of Energy and Environmental Management -- 1.5 Dynamics of Energy and Environmental Management -- 1.6 Human Aspects of Energy and Environmental Management -- 1.7 Initiating Training, Awareness and Motivation Programs -- 1.8 Bibliography -- 2. The Energy and Environmental Management Concept -- 2.1 Introduction -- 2.2 Interactions between Energy and Production -- 2.3 Energy Cost Centers -- 2.4 Assigning Responsibilities for Energy and Environmental Performance -- 2.6 Effective Use of Energy and Environmental Performance Indicators -- 2.7 Concept of Energy and Environmental Management System -- 2.8 Context of Energy and Environmental Management -- 2.9 Bibliography -- 3. Relationship between Energy Use and Production Volume -- 3.1 Introduction -- 3.2 Energy/Production Relationship by Design -- 3.3 Energy/Production Relationship by Standard Operational Procedure -- 3.4 Presenting the Dynamics of the Energy/Production Relationship by Scatter Diagram.
3.5 Interpretation of Energy/Production Data Pattern on the Scatter Diagram -- 3.6 Statistical Methods for Energy/Production Variability Analysis -- 3.7 Meaning and Use of the Regression Line in Energy Performance Evaluation -- 3.8 Summary of Presenting and Analyzing the Energy/Production Relationship -- 3.9 Bibliography -- 4. Evaluating the Performance of Energy and Environmental Management Practice -- 4.1 Evaluation of Past Performance -- 4.2 Energy and Environmental Auditing -- 4.3 Evaluating Organizational Aspects -- 4.4 Evaluating Operational Aspects -- 4.5 Setting a Baseline for Monitoring Performance Improvements -- 4.6 Setting Initial Targets for Performance Improvement -- 4.7 Monitoring Energy and Environmental Performance -- 4.8 Verifying Performance Improvements - CUSUM Technique -- 4.9 Moving Toward Targets - Process of Change -- 4.10 Bibliography -- 5. Implementation of the Energy and Environmental Management System -- 5.1 Introduction -- 5.2 Phases of EEMS Implementation Process -- 5.3 Preparation and Planning -- 5.4 Implementation Plan -- 5.5 EEMS Operation -- 5.6 Learning Through EEMS Operation -- 5.7 Continuity and Communication -- 5.8 Integration of EEMS with Business Management System -- 6. Energy and Environmental Management as a Driver for Integrated Performance Management -- 6.1 Introduction -- 6.2 Integrated Performance Management in Operations -- 6.3 Strategic Aspects of Performance Management -- 6.4 Integrated Performance Measurement System -- 6.5 Integrated Performance Management -- 6.6 Conclusion -- 6.7 Bibliography -- Part II: Engineering Aspects of Industrial Energy Management -- 1. Introduction to Industrial Energy Systems -- 1.1 Introduction -- 1.2 Industrial Energy Systems Analysis -- 2 Industrial Steam System -- 2.1 System Description -- 2.1.1 Boilers -- 2.3 Principles of Performance Analysis -- 2.4 Analysis of Boiler Performance -- 2.5 Factors Influencing Boiler Performance -- 2.6 Opportunities for Boiler Performance Improvement -- 2.7 Software for Boiler Performance Analysis.
2.8 Boiler Performance Monitoring -- 2.9 Steam Distribution and Condensate Return System -- 2.10 Condensate Return System -- 2.11 Environmental Impacts -- 2.12 Bibliography -- 3. Industrial Electric Power System -- 3.1 Introduction -- 3.2 Description of Industrial Electric Power Systems -- 3.3 Basic Terms -- 3.4 Tariff System -- 3.5 Main Components of Industrial Electric Power Systems -- 3.6 Performance Assessment of Industrial Electric Power Systems -- 3.7 Performance Improvement Opportunities -- 3.8 Maintenance Considerations -- 3.9 Performance Monitoring -- 3.10 Environmental Impacts -- 3.11 Bibliography -- 4. Compressed Air System -- 4.1 System Description -- 4.2 Performance Analysis -- 4.3 Performance Improvement Opportunities -- 4.4 Performance Monitoring -- 4.5 Example: Detailed Energy Audit of Compressed Air System -- 4.6 Example: Comparison of Load/Unload and Pump-up Tests -- 4.7 Bibliography -- 5. Refrigeration System -- 5.1 Description of System -- 5.2 Performance Definitions -- 5.3 Performance Analysis -- 5.4 Performance Improvement Opportunities -- 5.5 Performance Monitoring -- 5.6 Example: Improvement of ChilledWater System Operation -- 5.7 Bibliography -- 6. Industrial Cogeneration -- 6.1 System Description -- 6.2 Principles of Operation -- 6.3 Types of Industrial Cogeneration Plants -- 6.4 Operational Modes of Cogeneration Systems -- 6.5 Performance Definition -- 6.6 Factors Influencing Performance -- 6.7 Economic Aspects of Cogeneration as a Performance Improvement Measure -- 6.8 Performance Assessment -- 6.9 Performance Monitoring and Improvement -- 6.10 Environmental Impacts 415 -- 6.11 Case Study: Drying Kiln (Gas Turbine Operation Philosophy Improvement) -- 6.12 Bibliography -- Part III: Toolbox - Fundamentals for Analysis and Calculation of Energy and Environmental Performance -- Index.
Record Nr. UNINA-9910830079503321
Morvay Zoran K.  
Chichester, West Sussex, U.K. ; , : Wiley, , 2008
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Applied industrial energy and environmental management / / Zoran K. Morvay, Dusan D. Gvozdenac
Applied industrial energy and environmental management / / Zoran K. Morvay, Dusan D. Gvozdenac
Autore Morvay Zoran K
Pubbl/distr/stampa Chichester, West Sussex, U.K. ; ; Hoboken, NJ, : Wiley
Descrizione fisica 1 online resource (458 p.)
Disciplina 658.2/6
Altri autori (Persone) GvozdenacDusan D
Collana Wiley - iee
Soggetto topico Factories - Energy conservation
Industries - Energy conservation
Environmental protection
ISBN 1-281-93951-X
9786611939519
0-470-71437-9
0-470-71438-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto About the Authors -- Preface -- Introductory Chapter: Framework for Energy and Environmental Management in Industry -- 1. Introduction -- 2. Energy Use by Industrial Operations -- 3. Environmental Impacts of Industrial Operations -- 4. End Use Energy Efficiency -- 5. Efficiency of Using Raw Materials -- 6. Global Energy Policy Framework -- 7. Energy and Environmental Policies -- 7.1 Integrated Pollution Prevention and Control (IPPC) -- 7.2 Energy Markets Deregulation and Liberalization -- 7.3 Consumers' Choice in the Liberalized Energy Market -- 7.4 Emissions Trading -- 7.5 Compulsory Energy Efficiency Programs -- 7.6 Voluntary Programs -- 8. Industries' Self-Motivation for Effective Energy and Environmental Performance -- 9. Environmentally Responsible Investing -- 10. Where to Look for Energy and Environmental Performance Improvements -- 11. Bibliography -- Part I: Energy and Environmental Management System in Industry (EEMS) -- 1. Introducing the Energy and Environmental Management System -- 1.1 Introduction -- 1.2 Definition of terms -- 1.3 Energy and Environmental Management System -- 1.4 Objectives of Energy and Environmental Management -- 1.5 Dynamics of Energy and Environmental Management -- 1.6 Human Aspects of Energy and Environmental Management -- 1.7 Initiating Training, Awareness and Motivation Programs -- 1.8 Bibliography -- 2. The Energy and Environmental Management Concept -- 2.1 Introduction -- 2.2 Interactions between Energy and Production -- 2.3 Energy Cost Centers -- 2.4 Assigning Responsibilities for Energy and Environmental Performance -- 2.6 Effective Use of Energy and Environmental Performance Indicators -- 2.7 Concept of Energy and Environmental Management System -- 2.8 Context of Energy and Environmental Management -- 2.9 Bibliography -- 3. Relationship between Energy Use and Production Volume -- 3.1 Introduction -- 3.2 Energy/Production Relationship by Design -- 3.3 Energy/Production Relationship by Standard Operational Procedure -- 3.4 Presenting the Dynamics of the Energy/Production Relationship by Scatter Diagram.
3.5 Interpretation of Energy/Production Data Pattern on the Scatter Diagram -- 3.6 Statistical Methods for Energy/Production Variability Analysis -- 3.7 Meaning and Use of the Regression Line in Energy Performance Evaluation -- 3.8 Summary of Presenting and Analyzing the Energy/Production Relationship -- 3.9 Bibliography -- 4. Evaluating the Performance of Energy and Environmental Management Practice -- 4.1 Evaluation of Past Performance -- 4.2 Energy and Environmental Auditing -- 4.3 Evaluating Organizational Aspects -- 4.4 Evaluating Operational Aspects -- 4.5 Setting a Baseline for Monitoring Performance Improvements -- 4.6 Setting Initial Targets for Performance Improvement -- 4.7 Monitoring Energy and Environmental Performance -- 4.8 Verifying Performance Improvements - CUSUM Technique -- 4.9 Moving Toward Targets - Process of Change -- 4.10 Bibliography -- 5. Implementation of the Energy and Environmental Management System -- 5.1 Introduction -- 5.2 Phases of EEMS Implementation Process -- 5.3 Preparation and Planning -- 5.4 Implementation Plan -- 5.5 EEMS Operation -- 5.6 Learning Through EEMS Operation -- 5.7 Continuity and Communication -- 5.8 Integration of EEMS with Business Management System -- 6. Energy and Environmental Management as a Driver for Integrated Performance Management -- 6.1 Introduction -- 6.2 Integrated Performance Management in Operations -- 6.3 Strategic Aspects of Performance Management -- 6.4 Integrated Performance Measurement System -- 6.5 Integrated Performance Management -- 6.6 Conclusion -- 6.7 Bibliography -- Part II: Engineering Aspects of Industrial Energy Management -- 1. Introduction to Industrial Energy Systems -- 1.1 Introduction -- 1.2 Industrial Energy Systems Analysis -- 2 Industrial Steam System -- 2.1 System Description -- 2.1.1 Boilers -- 2.3 Principles of Performance Analysis -- 2.4 Analysis of Boiler Performance -- 2.5 Factors Influencing Boiler Performance -- 2.6 Opportunities for Boiler Performance Improvement -- 2.7 Software for Boiler Performance Analysis.
2.8 Boiler Performance Monitoring -- 2.9 Steam Distribution and Condensate Return System -- 2.10 Condensate Return System -- 2.11 Environmental Impacts -- 2.12 Bibliography -- 3. Industrial Electric Power System -- 3.1 Introduction -- 3.2 Description of Industrial Electric Power Systems -- 3.3 Basic Terms -- 3.4 Tariff System -- 3.5 Main Components of Industrial Electric Power Systems -- 3.6 Performance Assessment of Industrial Electric Power Systems -- 3.7 Performance Improvement Opportunities -- 3.8 Maintenance Considerations -- 3.9 Performance Monitoring -- 3.10 Environmental Impacts -- 3.11 Bibliography -- 4. Compressed Air System -- 4.1 System Description -- 4.2 Performance Analysis -- 4.3 Performance Improvement Opportunities -- 4.4 Performance Monitoring -- 4.5 Example: Detailed Energy Audit of Compressed Air System -- 4.6 Example: Comparison of Load/Unload and Pump-up Tests -- 4.7 Bibliography -- 5. Refrigeration System -- 5.1 Description of System -- 5.2 Performance Definitions -- 5.3 Performance Analysis -- 5.4 Performance Improvement Opportunities -- 5.5 Performance Monitoring -- 5.6 Example: Improvement of ChilledWater System Operation -- 5.7 Bibliography -- 6. Industrial Cogeneration -- 6.1 System Description -- 6.2 Principles of Operation -- 6.3 Types of Industrial Cogeneration Plants -- 6.4 Operational Modes of Cogeneration Systems -- 6.5 Performance Definition -- 6.6 Factors Influencing Performance -- 6.7 Economic Aspects of Cogeneration as a Performance Improvement Measure -- 6.8 Performance Assessment -- 6.9 Performance Monitoring and Improvement -- 6.10 Environmental Impacts 415 -- 6.11 Case Study: Drying Kiln (Gas Turbine Operation Philosophy Improvement) -- 6.12 Bibliography -- Part III: Toolbox - Fundamentals for Analysis and Calculation of Energy and Environmental Performance -- Index.
Record Nr. UNINA-9910876606003321
Morvay Zoran K  
Chichester, West Sussex, U.K. ; ; Hoboken, NJ, : Wiley
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Fuel efficiency [[electronic resource] /] / Jason K. Bernard, editor
Fuel efficiency [[electronic resource] /] / Jason K. Bernard, editor
Pubbl/distr/stampa New York, : Nova Science Publishers, c2011
Descrizione fisica 1 online resource (197 p.)
Disciplina 621.43
Altri autori (Persone) BernardJason K
Collana Energy science, engineering and technology
Soggetto topico Internal combustion engines - Fuel systems
Energy consumption
Fuel switching
Factories - Energy conservation
Soggetto genere / forma Electronic books.
ISBN 1-61122-600-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910452487703321
New York, : Nova Science Publishers, c2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Fuel efficiency [[electronic resource] /] / Jason K. Bernard, editor
Fuel efficiency [[electronic resource] /] / Jason K. Bernard, editor
Pubbl/distr/stampa New York, : Nova Science Publishers, c2011
Descrizione fisica 1 online resource (197 p.)
Disciplina 621.43
Altri autori (Persone) BernardJason K
Collana Energy science, engineering and technology
Soggetto topico Internal combustion engines - Fuel systems
Energy consumption
Fuel switching
Factories - Energy conservation
ISBN 1-61122-600-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910779641803321
New York, : Nova Science Publishers, c2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Fuel efficiency / / Jason K. Bernard, editor
Fuel efficiency / / Jason K. Bernard, editor
Edizione [1st ed.]
Pubbl/distr/stampa New York, : Nova Science Publishers, c2011
Descrizione fisica 1 online resource (197 p.)
Disciplina 621.43
Altri autori (Persone) BernardJason K
Collana Energy science, engineering and technology
Soggetto topico Internal combustion engines - Fuel systems
Energy consumption
Fuel switching
Factories - Energy conservation
ISBN 1-61122-600-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- FUEL EFFICIENCY -- FUEL EFFICIENCY -- CONTENTS -- PREFACE -- Chapter 1 EVALUATION OF A CO2-CAPTURING HIGH-EFFICIENCY POWER GENERATION SYSTEM FOR UTILIZING EXHAUST GAS FROM IRONWORKS -- ABSTRACT -- 1. INTRODUCTION -- 2. OUTLINE OF THE SYSTEMS -- 2.1. Outline of an Exhaust Gas from Ironworks -- 2.2. Outline of a Conventional Steam Turbine System -- 2.3. Outline of the Proposed System -- 3. EVALUATION OF THERMODYNAMIC CHARACTERISTICS -- 3.1. Premises -- 3.2. Estimated Characteristics of the STPS -- 3.3. Estimated Characteristics of the Proposed System -- 3.4. Discussions on the Estimated Thermodynamic Characteristics of STPS and PCPS -- 4. ESTIMATED ECONOMICS AND CO2-REDUCTION CHARACTERISTICS -- 4.1. Premises for Evaluating Economics and CO2- Reduction Characteristics -- 4.2. Discussions on the Results Estimated for the STPS -- 4.3. Discussions on the Results Estimated for the PCPS -- 4.4. Discussion on Economical Effects of CO2-Capture of the Proposed System -- 4.5. Effects of Raising Turbine Inlet Temperature of the PCPS -- 5. CONCLUSIONS -- NOMENCLATURE -- ACKNOWLEDGMENTS -- REFERENCES -- APPENDIX: BRIEF EXPLANATION OF SIMULATION MODELS -- Chapter 2 RESOURCE EFFICIENCY AS A DRIVER OF GROWTH: THE CASE OF JAPAN -- ABSTRACT -- 1. INTRODUCTION -- 2. ECONOMIC AND SOCIO-METABOLIC TRANSITIONS -- 2.1. Managed Decline: Coal -- 2.2. Long Term Support Despite an Uncertain Future: Iron and Steel -- 2.3. Rational use of Liquid Fuels: Petroleum -- 2.4. Electrification -- 2.5. Leadership, Vision, Coordination and Negotiation: MITI -- 2.6. Efficiency and Technology Substitution: The Fifth and Sixth Fuels -- 3. VIRTUOUS CYCLES DRIVING ECONOMIC GROWTH -- 4. CONCLUSIONS: LESSONS FROM THE PAST AND RECOMMENDATIONS FOR THE FUTURE -- REFERENCES -- Chapter 3 IMPROVING FUEL EFFICIENCY OF COMPRESSION IGNITION ENGINES FUELLED WITH VEGETABLE OIL.
EXTENDED ABSTRACT -- INTRODUCTION -- PHYSICO-CHEMICAL PROPERTIES OF HONGE OIL -- Chemical Composition -- Destructive Distillation of Wood Yields, on a Dry Basis: -- USE OF ETHANOL AND DEE IN DIESEL ENGINES -- Ethanol -- Diethyl Ether (DEE) -- FUEL PROPERTIES -- EXPERIMENTAL SET UP -- RESULTS AND DISCUSSIONS -- CASE 1.0: STUDIES ON RAW HONGE OIL AND ITS BIODIESEL HOME -- Brake Thermal Efficiency -- Exhaust Gas Temperature -- EMISSION CHARACTERISTICS -- Smoke Opacity -- Unburned Hydrocarbon (HC) and Carbon Monoxide (CO) Emissions -- Untitled -- CASE 2: EXPERIMENTAL INVESTIGATIONS ON THE UTILIZATION OF HOME, HOME AND ETHANOL BLENDS -- Home - Ethanol Blends -- Brake Thermal Efficiency -- Emission Characteristics -- Smoke Opacity -- Unburned Hydrocarbon (HC) Emissions -- Carbon Monoxide (CO) Emissions -- Nitrogen Oxides (NOx) Emissions -- CASE 3: EXPERIMENTAL INVESTIGATIONS ON THE UTILIZATION OF HOME, HOME AND DEE BLENDS -- Brake Thermal Efficiency -- Smoke Emission -- HC/ CO Emissions -- NO Emissions -- CONCLUSIONS -- Case 1: Honge Oil and Honge Oil Methyl Ester -- Case 2: Honge Oil Methyl Ester and its Blends With Ethanol -- Case 3: Honge Oil Methyl Ester and its Blends with Diethyl Ether -- REFERENCES -- Chapter 4 AIR INFILTRATION EFFECTS ON INDUSTRIAL COMBUSTION EFFICIENCY -- ABSTRACT -- INTRODUCTION -- PROBLEMS WITH LEAKS -- Reduced Thermal Efficiency -- Increased NOx Emissions -- Poor Burner Performance -- Product Contamination -- After-Burning -- Increased Metal Oxidation and Stress -- Other Problems -- LEAK SOURCES/CAUSES -- Leaky Combustors -- Improperly Sealed Openings -- Batch Processes -- Burners-Out-of-Service -- Improper Operation -- LEAK SIZE AND LOCATION -- FINDING LEAKS -- MITIGATING LEAKS -- CONCLUSION -- RECOMMENDATION -- REFERENCES -- Chapter 5 MICROALGAE - A SECOND GENERATION BIOFUEL -- ABSTRACT -- 1. INTRODUCTION.
2. MICROALGAE- AN OVERVIEW -- 2.1. Composition of Micro Algae -- 2.2. Oil Content of Various Oil Crops V/S Microalgae -- 3. MICROALGAL BIODIESEL PRODUCTION TECHNOLOGY -- 3.1. Cultivation of Microalgae -- 3.1.1. Raceways -- 3.1.2. Photobioreactors -- 3.2. Harvesting and Processing of Bio-Oil from Microbial Biomass -- 3.2.1. Harvesting of Microalgal Biomass -- 3.2.2. Liquefaction -- 3.2.3. Pyrolysis -- 3.3. Transesterification Process (Biodiesel Production) -- 4. MICROALGAE BIODIESEL QUALITY ISSUES -- 5. ENVIRONMENTAL BENEFITS OF MICROALGAE AND ITS CULTIVATION -- 6. ECONOMICS OF MICROALGAE BIODIESEL -- 6. CONCLUSION -- REFERENCES -- Chapter 6 POLICIES, MEASURES AND MANAGEMENT STRATEGIES INFLUENCING ENERGY EFFICIENCY IN THE MANUFACTURING INDUSTRY'S EVIDENCE FROM GERMANY AND COLOMBIA -- ABSTRACT -- 1. INTRODUCTION -- 2. DATA AND METHODOLOGY -- 2.1. Data -- 2.2. Methodology -- 3. GERMAN AND COLOMBIAN MANUFACTURING INDUSTRIES TRENDS AND DEVELOPMENTS -- 3.1. Brief Description of Energy Policy in German and Colombian Manufacturing Industries -- 3.2. Trends in Energy Consumption and Energy Efficiency in German and Colombian Manufacturing Industries -- 3.2.1 Energy Intensity -- 3.2.2. Energy Productivity -- 3.2.2. CO2 Emissions Intensity -- 4. DISCUSSION OF RESULTS -- 4.1. Recommendation for the Formulation of Energy Policies -- 5. CONCLUSIONS -- REFERENCES -- INDEX.
Record Nr. UNINA-9910824757503321
New York, : Nova Science Publishers, c2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Modeling, analysis, and optimization of process and energy systems [[electronic resource] /] / F. Carl Knopf
Modeling, analysis, and optimization of process and energy systems [[electronic resource] /] / F. Carl Knopf
Autore Knopf F. Carl <1952->
Pubbl/distr/stampa Hoboken, N.J., : Wiley, 2012
Descrizione fisica 1 online resource (486 p.)
Disciplina 658.2/6
Soggetto topico Factories - Energy conservation
Manufacturing industries - Energy conservation
Industrial efficiency - Simulation methods
Manufacturing processes - Evaluation
Electric power-plants - Efficiency
ISBN 1-283-40079-0
9786613400796
1-118-12114-7
1-118-12116-3
1-118-12113-9
Classificazione TEC009010
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Modeling, Analysis and Optimization of Process and Energy Systems; Contents; Preface; Conversion Factors; List of Symbols; Chapter 1: Introduction to Energy Usage, Cost, and Efficiency; 1.1 ENERGY UTILIZATION IN THE UNITED STATES; 1.2 THE COST OF ENERGY; 1.3 ENERGY EFFICIENCY; 1.4 THE COST OF SELF-GENERATED VERSUS PURCHASED ELECTRICITY; 1.5 THE COST OF FUEL AND FUEL HEATING VALUE; 1.6 TEXT ORGANIZATION; 1.7 GETTING STARTED; 1.8 CLOSING COMMENTS; REFERENCES; PROBLEMS; Chapter 2: Engineering Economics with VBA Procedures; 2.1 INTRODUCTION TO ENGINEERING ECONOMICS
2.2 THE TIME VALUE OF MONEY: PRESENT VALUE (PV) AND FUTURE VALUE (FV)2.3 ANNUITIES; 2.4 COMPARING PROCESS ALTERNATIVES; 2.4.1 Present Value; 2.4.2 Rate of Return (ROR); 2.4.3 Equivalent Annual Cost/Annual Capital Recovery Factor (CRF); 2.5 PLANT DESIGN ECONOMICS; 2.6 FORMULATING ECONOMICSBASED ENERGY OPTIMIZATION PROBLEMS; 2.7 ECONOMIC ANALYSIS WITH UNCERTAINTY: MONTE CARLO SIMULATION; 2.8 CLOSING COMMENTS; REFERENCES; PROBLEMS; Chapter 3: Computer-Aided Solutions of Process Material Balances: The Sequential Modular Solution Approach; 3.1 ELEMENTARY MATERIAL BALANCE MODULES; 3.1.1 Mixer
3.1.2 Separator 3.1.3 Splitter; 3.1.4 Reactors; 3.2 SEQUENTIAL MODULAR APPROACH: MATERIAL BALANCES WITH RECYCLE; 3.3 UNDERSTANDING TEAR STREAM ITERATION METHODS; 3.3.1 Single-Variable Successive Substitution Method; 3.3.2 Multidimensional Successive Substitution Method; 3.3.3 Single-Variable Wegstein Method; 3.3.4 Multidimensional Wegstein Method; 3.4 MATERIAL BALANCE PROBLEMS WITH ALTERNATIVE SPECIFICATIONS; 3.5 SINGLE-VARIABLE OPTIMIZATION PROBLEMS; 3.5.1 Forming the Objective Function for Single-Variable Constrained Material Balance Problems
3.5.2 Bounding Step or Bounding Phase: Swann's Equation 3.5.3 Interval Refinement Phase: Interval Halving; 3.6 MATERIAL BALANCE PROBLEMS WITH LOCAL NONLINEAR SPECIFICATIONS; 3.7 CLOSING COMMENTS; REFERENCES; PROBLEMS; Chapter 4: Computer-Aided Solutions of Process Material Balances: The Simultaneous Solution Approach; 4.1 SOLUTION OF LINEAR EQUATION SETS: THE SIMULTANEOUS APPROACH; 4.1.1 The Gauss-Jordan Matrix Elimination Method; 4.1.2 Gauss-Jordan Coding Strategy for Linear Equation Sets; 4.1.3 Linear Material Balance Problems: Natural Specifications
4.1.4 Linear Material Balance Problems: Alternative Specifications 4.2 SOLUTION OF NONLINEAR EQUATION SETS: THE NEWTON-RAPHSON METHOD; 4.2.1 Equation Linearization via Taylor's Series Expansion; 4.2.2 Nonlinear Equation Set Solution via the Newton-Raphson Method; 4.2.3 Newton-Raphson Coding Strategy for Nonlinear Equation Sets; 4.2.4 Nonlinear Material Balance Problems: The Simultaneous Approach; REFERENCES; PROBLEMS; Chapter 5: Process Energy Balances; 5.1 INTRODUCTION; 5.2 SEPARATOR: EQUILIBRIUM FLASH; 5.2.1 Equilibrium Flash with Recycle: Sequential Modular Approach
5.3 EQUILIBRIUM FLASH WITH RECYCLE: SIMULTANEOUS APPROACH
Record Nr. UNINA-9910141179403321
Knopf F. Carl <1952->  
Hoboken, N.J., : Wiley, 2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Modeling, analysis, and optimization of process and energy systems / / F. Carl Knopf
Modeling, analysis, and optimization of process and energy systems / / F. Carl Knopf
Autore Knopf F. Carl <1952->
Edizione [1st ed.]
Pubbl/distr/stampa Hoboken, N.J., : Wiley, 2012
Descrizione fisica 1 online resource (486 p.)
Disciplina 658.2/6
Soggetto topico Factories - Energy conservation
Manufacturing industries - Energy conservation
Industrial efficiency - Simulation methods
Manufacturing processes - Evaluation
Electric power-plants - Efficiency
ISBN 1-283-40079-0
9786613400796
1-118-12114-7
1-118-12116-3
1-118-12113-9
Classificazione TEC009010
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Modeling, Analysis and Optimization of Process and Energy Systems; Contents; Preface; Conversion Factors; List of Symbols; Chapter 1: Introduction to Energy Usage, Cost, and Efficiency; 1.1 ENERGY UTILIZATION IN THE UNITED STATES; 1.2 THE COST OF ENERGY; 1.3 ENERGY EFFICIENCY; 1.4 THE COST OF SELF-GENERATED VERSUS PURCHASED ELECTRICITY; 1.5 THE COST OF FUEL AND FUEL HEATING VALUE; 1.6 TEXT ORGANIZATION; 1.7 GETTING STARTED; 1.8 CLOSING COMMENTS; REFERENCES; PROBLEMS; Chapter 2: Engineering Economics with VBA Procedures; 2.1 INTRODUCTION TO ENGINEERING ECONOMICS
2.2 THE TIME VALUE OF MONEY: PRESENT VALUE (PV) AND FUTURE VALUE (FV)2.3 ANNUITIES; 2.4 COMPARING PROCESS ALTERNATIVES; 2.4.1 Present Value; 2.4.2 Rate of Return (ROR); 2.4.3 Equivalent Annual Cost/Annual Capital Recovery Factor (CRF); 2.5 PLANT DESIGN ECONOMICS; 2.6 FORMULATING ECONOMICSBASED ENERGY OPTIMIZATION PROBLEMS; 2.7 ECONOMIC ANALYSIS WITH UNCERTAINTY: MONTE CARLO SIMULATION; 2.8 CLOSING COMMENTS; REFERENCES; PROBLEMS; Chapter 3: Computer-Aided Solutions of Process Material Balances: The Sequential Modular Solution Approach; 3.1 ELEMENTARY MATERIAL BALANCE MODULES; 3.1.1 Mixer
3.1.2 Separator 3.1.3 Splitter; 3.1.4 Reactors; 3.2 SEQUENTIAL MODULAR APPROACH: MATERIAL BALANCES WITH RECYCLE; 3.3 UNDERSTANDING TEAR STREAM ITERATION METHODS; 3.3.1 Single-Variable Successive Substitution Method; 3.3.2 Multidimensional Successive Substitution Method; 3.3.3 Single-Variable Wegstein Method; 3.3.4 Multidimensional Wegstein Method; 3.4 MATERIAL BALANCE PROBLEMS WITH ALTERNATIVE SPECIFICATIONS; 3.5 SINGLE-VARIABLE OPTIMIZATION PROBLEMS; 3.5.1 Forming the Objective Function for Single-Variable Constrained Material Balance Problems
3.5.2 Bounding Step or Bounding Phase: Swann's Equation 3.5.3 Interval Refinement Phase: Interval Halving; 3.6 MATERIAL BALANCE PROBLEMS WITH LOCAL NONLINEAR SPECIFICATIONS; 3.7 CLOSING COMMENTS; REFERENCES; PROBLEMS; Chapter 4: Computer-Aided Solutions of Process Material Balances: The Simultaneous Solution Approach; 4.1 SOLUTION OF LINEAR EQUATION SETS: THE SIMULTANEOUS APPROACH; 4.1.1 The Gauss-Jordan Matrix Elimination Method; 4.1.2 Gauss-Jordan Coding Strategy for Linear Equation Sets; 4.1.3 Linear Material Balance Problems: Natural Specifications
4.1.4 Linear Material Balance Problems: Alternative Specifications 4.2 SOLUTION OF NONLINEAR EQUATION SETS: THE NEWTON-RAPHSON METHOD; 4.2.1 Equation Linearization via Taylor's Series Expansion; 4.2.2 Nonlinear Equation Set Solution via the Newton-Raphson Method; 4.2.3 Newton-Raphson Coding Strategy for Nonlinear Equation Sets; 4.2.4 Nonlinear Material Balance Problems: The Simultaneous Approach; REFERENCES; PROBLEMS; Chapter 5: Process Energy Balances; 5.1 INTRODUCTION; 5.2 SEPARATOR: EQUILIBRIUM FLASH; 5.2.1 Equilibrium Flash with Recycle: Sequential Modular Approach
5.3 EQUILIBRIUM FLASH WITH RECYCLE: SIMULTANEOUS APPROACH
Record Nr. UNINA-9910823397803321
Knopf F. Carl <1952->  
Hoboken, N.J., : Wiley, 2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui