Electrical energy efficiency: technologies and applications
Gespeichert in:
| Format: | Elektronisch E-Book |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Chichester [England]
Wiley
2012
|
| Schlagworte: | |
| Beschreibung: | Includes bibliographical references and index "Provides up-to-date information on today's global policies, technologies and economic realities in a single, synergistic text"-- |
| Beschreibung: | xvi, 402 p. |
| ISBN: | 9780470975510 9781119990055 |
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| 505 | 0 | |a Machine generated contents note: 1 - OVERVIEW ON STANDARDISATION ON ENERGY EFFICIENCY Franco Bua, Angelo Baggini 1 Introduction 2 Standardisation 2.1 ISO 2.1.1 ISO 50001 2.1.2 ISO/IEC JPC 2 2.2 IEC 2.2.1 SG1 "Energy efficiency and renewable resources" 2.2.2 SG3 "Smart Grid" 2.2.3 SG4 "LVDC distribution systems up to 1 500V DC" 2.3 CEN and CENELEC 2.3.1 SFEM 3. References 2 - CABLES AND LINES Paola Pezzini and Andreas Sumper 2.1. Theory of heat transfer 2.1.1. Conduction 2.1.2. Convection 2.1.3. Radiation 2.2. Current rating of cables installed in free air 2.3. Economical aspects 2.4. Calculation of the current rating: total costs 2.4.1. Evaluation of CJ 2.5. Determination of economic conductor sizes 2.5.1. Economic current range for each conductor in a series of sizes 2.5.2. Economic conductor size for a given load 2.6. Summary References 3 - POWER TRANSFORMERS Roman Targosz, Stefan Fassbinder and Angelo Baggini 1. LOSSES IN TRANSFORMERS 1.1. No-Load losses 1.2. Load losses 1.3. | |
| 505 | 0 | |a 10.3.2. Selection of the most suitable electrotechnology 10.3.3. Increasing the efficiency of the existing electroheating equipment REFERENCES 11- HEAT, VENTILATION AND AIR CONDITIONING (HVAC) Roberto Villafáfila-Robles, Jaume Salom 1. Basic concepts 2. Environmental thermal comfort 3. HVAC systems 3.1. Energy conversion 3.2. Energy balance 3.3. Energy efficiency 4. Energy measures in HVAC systems 4.1. Final service 4.2. Passive methods 4.3. Conversion device 4.4. Energy sources References 12 - DATA CENTERS Angelo Baggini, Franco Bua 1 Standards 2 Consumption profile 2.1 Indici di prestazione energetica 3 IT infrastructure and equipment 3.1 Blade server 3.2 Storage 3.3 Network Equipment 3.4 Consolidation 3.5 Virtualization 3.6 Software 4 Facility infrastructure 4.1 Electrical infrastructure 4.1.1 UPS (Uninterruptible Power Systems) 4.1.2 PDU (Power Distribution Unit) 4.1.3 PSU (Power Supply Units) 4.1.4 Lighting 4.2 HVAC infrastructure 4.2.1 Cooling best practices 5 DG and CHP for Data Centres 6 Organizing for ENERGY Efficiency 7. References 13 - REACTIVE POWER COMPENSATION Zbigniew Hanzelka, Waldemar Szpyra, Andrei Cziker, Krzysztof Piatek 13.1. Reactive power compensation in an electric utility network 13.1.1. Economic efficiency of reactive power compensation 13.2. Reactive power compensation in an industrial network 13.2.1. Linear loads 13.2.2. Group compensation 13.2.2. Nonlinear loads 13.3. VAR compensation 13.3.1. A synchronous condenser 13.3.2. Capacitor banks 13.3.3. Power electronic compensators/stabilizers Bibliography Index | |
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| 650 | 4 | |a Energy conservation |x Standards | |
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| 650 | 4 | |a Electric power transmission |x Reliability | |
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| contents | Machine generated contents note: 1 - OVERVIEW ON STANDARDISATION ON ENERGY EFFICIENCY Franco Bua, Angelo Baggini 1 Introduction 2 Standardisation 2.1 ISO 2.1.1 ISO 50001 2.1.2 ISO/IEC JPC 2 2.2 IEC 2.2.1 SG1 "Energy efficiency and renewable resources" 2.2.2 SG3 "Smart Grid" 2.2.3 SG4 "LVDC distribution systems up to 1 500V DC" 2.3 CEN and CENELEC 2.3.1 SFEM 3. References 2 - CABLES AND LINES Paola Pezzini and Andreas Sumper 2.1. Theory of heat transfer 2.1.1. Conduction 2.1.2. Convection 2.1.3. Radiation 2.2. Current rating of cables installed in free air 2.3. Economical aspects 2.4. Calculation of the current rating: total costs 2.4.1. Evaluation of CJ 2.5. Determination of economic conductor sizes 2.5.1. Economic current range for each conductor in a series of sizes 2.5.2. Economic conductor size for a given load 2.6. Summary References 3 - POWER TRANSFORMERS Roman Targosz, Stefan Fassbinder and Angelo Baggini 1. LOSSES IN TRANSFORMERS 1.1. No-Load losses 1.2. Load losses 1.3. 10.3.2. Selection of the most suitable electrotechnology 10.3.3. Increasing the efficiency of the existing electroheating equipment REFERENCES 11- HEAT, VENTILATION AND AIR CONDITIONING (HVAC) Roberto Villafáfila-Robles, Jaume Salom 1. Basic concepts 2. Environmental thermal comfort 3. HVAC systems 3.1. Energy conversion 3.2. Energy balance 3.3. Energy efficiency 4. Energy measures in HVAC systems 4.1. Final service 4.2. Passive methods 4.3. Conversion device 4.4. Energy sources References 12 - DATA CENTERS Angelo Baggini, Franco Bua 1 Standards 2 Consumption profile 2.1 Indici di prestazione energetica 3 IT infrastructure and equipment 3.1 Blade server 3.2 Storage 3.3 Network Equipment 3.4 Consolidation 3.5 Virtualization 3.6 Software 4 Facility infrastructure 4.1 Electrical infrastructure 4.1.1 UPS (Uninterruptible Power Systems) 4.1.2 PDU (Power Distribution Unit) 4.1.3 PSU (Power Supply Units) 4.1.4 Lighting 4.2 HVAC infrastructure 4.2.1 Cooling best practices 5 DG and CHP for Data Centres 6 Organizing for ENERGY Efficiency 7. References 13 - REACTIVE POWER COMPENSATION Zbigniew Hanzelka, Waldemar Szpyra, Andrei Cziker, Krzysztof Piatek 13.1. Reactive power compensation in an electric utility network 13.1.1. Economic efficiency of reactive power compensation 13.2. Reactive power compensation in an industrial network 13.2.1. Linear loads 13.2.2. Group compensation 13.2.2. Nonlinear loads 13.3. VAR compensation 13.3.1. A synchronous condenser 13.3.2. Capacitor banks 13.3.3. Power electronic compensators/stabilizers Bibliography Index |
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| dewey-full | 621.31 |
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| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
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| spelling | Electrical energy efficiency technologies and applications [edited by] Andreas Sumper, Angelo Baggini Chichester [England] Wiley 2012 xvi, 402 p. txt rdacontent c rdamedia cr rdacarrier Includes bibliographical references and index "Provides up-to-date information on today's global policies, technologies and economic realities in a single, synergistic text"-- Machine generated contents note: 1 - OVERVIEW ON STANDARDISATION ON ENERGY EFFICIENCY Franco Bua, Angelo Baggini 1 Introduction 2 Standardisation 2.1 ISO 2.1.1 ISO 50001 2.1.2 ISO/IEC JPC 2 2.2 IEC 2.2.1 SG1 "Energy efficiency and renewable resources" 2.2.2 SG3 "Smart Grid" 2.2.3 SG4 "LVDC distribution systems up to 1 500V DC" 2.3 CEN and CENELEC 2.3.1 SFEM 3. References 2 - CABLES AND LINES Paola Pezzini and Andreas Sumper 2.1. Theory of heat transfer 2.1.1. Conduction 2.1.2. Convection 2.1.3. Radiation 2.2. Current rating of cables installed in free air 2.3. Economical aspects 2.4. Calculation of the current rating: total costs 2.4.1. Evaluation of CJ 2.5. Determination of economic conductor sizes 2.5.1. Economic current range for each conductor in a series of sizes 2.5.2. Economic conductor size for a given load 2.6. Summary References 3 - POWER TRANSFORMERS Roman Targosz, Stefan Fassbinder and Angelo Baggini 1. LOSSES IN TRANSFORMERS 1.1. No-Load losses 1.2. Load losses 1.3. 10.3.2. Selection of the most suitable electrotechnology 10.3.3. Increasing the efficiency of the existing electroheating equipment REFERENCES 11- HEAT, VENTILATION AND AIR CONDITIONING (HVAC) Roberto Villafáfila-Robles, Jaume Salom 1. Basic concepts 2. Environmental thermal comfort 3. HVAC systems 3.1. Energy conversion 3.2. Energy balance 3.3. Energy efficiency 4. Energy measures in HVAC systems 4.1. Final service 4.2. Passive methods 4.3. Conversion device 4.4. Energy sources References 12 - DATA CENTERS Angelo Baggini, Franco Bua 1 Standards 2 Consumption profile 2.1 Indici di prestazione energetica 3 IT infrastructure and equipment 3.1 Blade server 3.2 Storage 3.3 Network Equipment 3.4 Consolidation 3.5 Virtualization 3.6 Software 4 Facility infrastructure 4.1 Electrical infrastructure 4.1.1 UPS (Uninterruptible Power Systems) 4.1.2 PDU (Power Distribution Unit) 4.1.3 PSU (Power Supply Units) 4.1.4 Lighting 4.2 HVAC infrastructure 4.2.1 Cooling best practices 5 DG and CHP for Data Centres 6 Organizing for ENERGY Efficiency 7. References 13 - REACTIVE POWER COMPENSATION Zbigniew Hanzelka, Waldemar Szpyra, Andrei Cziker, Krzysztof Piatek 13.1. Reactive power compensation in an electric utility network 13.1.1. Economic efficiency of reactive power compensation 13.2. Reactive power compensation in an industrial network 13.2.1. Linear loads 13.2.2. Group compensation 13.2.2. Nonlinear loads 13.3. VAR compensation 13.3.1. A synchronous condenser 13.3.2. Capacitor banks 13.3.3. Power electronic compensators/stabilizers Bibliography Index Electric power Conservation Standards Energy conservation Standards Energy dissipation Electric power transmission Reliability Energieeinsparung (DE-588)4014700-9 gnd rswk-swf Energieeffizienz (DE-588)7660153-5 gnd rswk-swf Elektrische Energie (DE-588)4151720-9 gnd rswk-swf Elektrische Energie (DE-588)4151720-9 s Energieeffizienz (DE-588)7660153-5 s 1\p DE-604 Energieeinsparung (DE-588)4014700-9 s 2\p DE-604 Baggini, Angelo B. Sonstige oth Sumper, Andreas Sonstige oth 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Electrical energy efficiency technologies and applications Machine generated contents note: 1 - OVERVIEW ON STANDARDISATION ON ENERGY EFFICIENCY Franco Bua, Angelo Baggini 1 Introduction 2 Standardisation 2.1 ISO 2.1.1 ISO 50001 2.1.2 ISO/IEC JPC 2 2.2 IEC 2.2.1 SG1 "Energy efficiency and renewable resources" 2.2.2 SG3 "Smart Grid" 2.2.3 SG4 "LVDC distribution systems up to 1 500V DC" 2.3 CEN and CENELEC 2.3.1 SFEM 3. References 2 - CABLES AND LINES Paola Pezzini and Andreas Sumper 2.1. Theory of heat transfer 2.1.1. Conduction 2.1.2. Convection 2.1.3. Radiation 2.2. Current rating of cables installed in free air 2.3. Economical aspects 2.4. Calculation of the current rating: total costs 2.4.1. Evaluation of CJ 2.5. Determination of economic conductor sizes 2.5.1. Economic current range for each conductor in a series of sizes 2.5.2. Economic conductor size for a given load 2.6. Summary References 3 - POWER TRANSFORMERS Roman Targosz, Stefan Fassbinder and Angelo Baggini 1. LOSSES IN TRANSFORMERS 1.1. No-Load losses 1.2. Load losses 1.3. 10.3.2. Selection of the most suitable electrotechnology 10.3.3. Increasing the efficiency of the existing electroheating equipment REFERENCES 11- HEAT, VENTILATION AND AIR CONDITIONING (HVAC) Roberto Villafáfila-Robles, Jaume Salom 1. Basic concepts 2. Environmental thermal comfort 3. HVAC systems 3.1. Energy conversion 3.2. Energy balance 3.3. Energy efficiency 4. Energy measures in HVAC systems 4.1. Final service 4.2. Passive methods 4.3. Conversion device 4.4. Energy sources References 12 - DATA CENTERS Angelo Baggini, Franco Bua 1 Standards 2 Consumption profile 2.1 Indici di prestazione energetica 3 IT infrastructure and equipment 3.1 Blade server 3.2 Storage 3.3 Network Equipment 3.4 Consolidation 3.5 Virtualization 3.6 Software 4 Facility infrastructure 4.1 Electrical infrastructure 4.1.1 UPS (Uninterruptible Power Systems) 4.1.2 PDU (Power Distribution Unit) 4.1.3 PSU (Power Supply Units) 4.1.4 Lighting 4.2 HVAC infrastructure 4.2.1 Cooling best practices 5 DG and CHP for Data Centres 6 Organizing for ENERGY Efficiency 7. References 13 - REACTIVE POWER COMPENSATION Zbigniew Hanzelka, Waldemar Szpyra, Andrei Cziker, Krzysztof Piatek 13.1. Reactive power compensation in an electric utility network 13.1.1. Economic efficiency of reactive power compensation 13.2. Reactive power compensation in an industrial network 13.2.1. Linear loads 13.2.2. Group compensation 13.2.2. Nonlinear loads 13.3. VAR compensation 13.3.1. A synchronous condenser 13.3.2. Capacitor banks 13.3.3. Power electronic compensators/stabilizers Bibliography Index Electric power Conservation Standards Energy conservation Standards Energy dissipation Electric power transmission Reliability Energieeinsparung (DE-588)4014700-9 gnd Energieeffizienz (DE-588)7660153-5 gnd Elektrische Energie (DE-588)4151720-9 gnd |
| subject_GND | (DE-588)4014700-9 (DE-588)7660153-5 (DE-588)4151720-9 |
| title | Electrical energy efficiency technologies and applications |
| title_auth | Electrical energy efficiency technologies and applications |
| title_exact_search | Electrical energy efficiency technologies and applications |
| title_full | Electrical energy efficiency technologies and applications [edited by] Andreas Sumper, Angelo Baggini |
| title_fullStr | Electrical energy efficiency technologies and applications [edited by] Andreas Sumper, Angelo Baggini |
| title_full_unstemmed | Electrical energy efficiency technologies and applications [edited by] Andreas Sumper, Angelo Baggini |
| title_short | Electrical energy efficiency |
| title_sort | electrical energy efficiency technologies and applications |
| title_sub | technologies and applications |
| topic | Electric power Conservation Standards Energy conservation Standards Energy dissipation Electric power transmission Reliability Energieeinsparung (DE-588)4014700-9 gnd Energieeffizienz (DE-588)7660153-5 gnd Elektrische Energie (DE-588)4151720-9 gnd |
| topic_facet | Electric power Conservation Standards Energy conservation Standards Energy dissipation Electric power transmission Reliability Energieeinsparung Energieeffizienz Elektrische Energie |
| work_keys_str_mv | AT bagginiangelob electricalenergyefficiencytechnologiesandapplications AT sumperandreas electricalenergyefficiencytechnologiesandapplications |