2015, ISBN: 9788126557363

Livres de poche, Edition reliée

U.S.A.: Viking. Hardcover. 0670025844 No marks or damage from past owners, not a former library book, not a remainder or book club, not clipped, Hardcover. "A worldwide race is on to… Plus…

U.S.A.: Viking. Hardcover. 0670025844 No marks or damage from past owners, not a former library book, not a remainder or book club, not clipped, Hardcover. "A worldwide race is on to perfect the next engine of economic growth, the advanced lithium-ion battery. It will power the electric car, relieve global warming, and catapult the winner into a new era of economic and political mastery. Can the United States win? Steve LeVine was granted unprecedented access to a secret federal laboratory outside Chicago, where a group of geniuses is trying to solve this next monumental task of physics. But these scientists--... almost all foreign born--are not alone. With so much at stake, researchers in Japan, South Korea, and China are in the same pursuit. The drama intensifies when a Silicon Valley start-up licenses the federal laboratory's signature invention with the aim of a blockbuster sale to the world's biggest car makers. The Powerhouse is a real-time, two year thrilling account of big invention, big commercialization, and big deception. It exposes the layers of competition and ambition, aspiration and disappointment behind this great turning point in the history of technology"-- Provided by publisher. All books shipped within 24 hours with U.S. Postal Service Delivery Confirmation, each order is packaged in a new box with bubble wrap, and always your satisfaction is guaranteed. This is a GIFT QUALITY ITEM. . Fine. 2015. 1st Edition., Viking, 2015, Wiley India Pvt. Ltd, 2015. First edition. Softcover. New. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumping large sums of money into smart grid research, development and deployments. With the potential to reduce carbon dioxide emissions, increase reliability of electricity supply, and increase the efficiency of our energy infrastructure, it is clear that the advancement of these smart grids is an important and inevitable conclusion. This text will provide insight into the power electronics sensing, monitoring and control technologies, as well as deeply exploring the communication aspects of smart grids. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumping large sums of money into smart grid research, development and deployments. With the potential to reduce carbon dioxide emissions, increase reliability of electricity supply, and increase the efficiency of our energy infrastructure, it is clear that the advancement of these smart grids is an important and inevitable conclusion. This text will provide insight into the power electronics sensing, monitoring and control technologies, as well as deeply exploring the communication aspects of smart grids. Preface Contributors Part I Applications 1 Introduction to Smart Grid Applications 1.1 Introduction 1.2 Voltage and Var Control and Optimization 1.3 Fault Detection, Isolation and Restoration (FDIR) 1.4 Demand Response (DR) 1.5 Distributed Energy Resources (DERs) 1.6 Wide-Area Monitoring, Control and Protection (WAMCP) 2 Electric Vehicles as A Driver for Smart Grids 2.1 Introduction 2.2 Plug-In Electric Vehicles and Hybrids 2.3 Hybrids 2.4 The General Electric Delta Car 2.5 Batteries, Ultra capacitors and Semi and Full-Fuel Cells 2.6 Lithium Ion 2.7 Cell Voltage, Reliability of Stacks and Impact of Inverters 2.8 Battery Mass Fraction, Energy, Power, Benefits and a Penalty 2.9 Vehicle Classes, Niches and Constraints 2.10 Messages from Full-Cycle Modeling, Energy Security and Air Quality 2.11 Market Penetration by Vehicle Niche 2.12 Vehicle Architecture, Key Components, Controls and Cost 2.13 Grid to Vehicle (G2V) Charging: Levels 1 to 3 2.14 Grid Impacts 2.15 Vehicle to Grid (V2G): A First or Second Order Matter? 2.16 Second Life for Used Vehicle Batteries Grid-Side Instead? 2.17 The City and the Vehicle 2.18 Impact of Electric Drive on Greenhouse Gas Emissions 2.19 Conclusions 3 Autonomous Demand-Side Management 3.1 Introduction 3.2 Direct and Indirect Demand-Side Management 3.3 Autonomous Demand-Side Management 3.4 Optimal Energy Consumption Scheduling 3.5 Price Prediction 3.6 Managing User-Side Storage and Generation 3.7 Conclusion 4 Power Electronics for Monitoring, Signaling and Protection 4.1 Introduction 4.2 Power Line Communication 4.3 Condition Monitoring and Fault Detection 4.4 Active Protection 4.5 Power Electronics Signaling Technology 4.6 Conclusions Part II Communications 5 Introduction to Smart Grid Communications 5.1 Introduction 5.2 An Overview of Network Architecture 5.3 Premises Network 5.4 Neighborhood Area Network 5.5 Wide Area Network 5.6 Standardization Activities 5.7 Conclusions 6 Wireless Communications in Smart Grids 6.1 Introduction 6.2 Wireless Personal Area Networks 6.3 Wireless Local Area Networks 6.4 Wireless Metropolitan Area Networks 6.5 Cellular Networks 6.6 Satellite Communications 6.7 Conclusions 7 Wireline Communications in Smart Grids 7.1 Introduction 7.2 Phone Line Technology 7.3 Coaxial Cable Technologies 7.4 Power Line Technology 7.4.1 PLC Scenarios, Channel and Noise Aspects 7.5 Conclusions 8 Optical Communications in Smart Grids 8.1 Introduction 8.2 Passive Optical Networks (PONs) 8.3 Wave Lengh Division Multiplexing (WDM) 8.4 SONET / SDH 8.5 Carrier Ethernet 8.6 Conclusions 9 Network Layer As Printed Pages: 484., Wiley India Pvt. Ltd, 2015<

2015, ISBN: 9788126557363

Wiley India Pvt. Ltd, 2015. First edition. Softcover. New. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumpin… Plus…

Wiley India Pvt. Ltd, 2015. First edition. Softcover. New. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumping large sums of money into smart grid research, development and deployments. With the potential to reduce carbon dioxide emissions, increase reliability of electricity supply, and increase the efficiency of our energy infrastructure, it is clear that the advancement of these smart grids is an important and inevitable conclusion. This text will provide insight into the power electronics sensing, monitoring and control technologies, as well as deeply exploring the communication aspects of smart grids. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumping large sums of money into smart grid research, development and deployments. With the potential to reduce carbon dioxide emissions, increase reliability of electricity supply, and increase the efficiency of our energy infrastructure, it is clear that the advancement of these smart grids is an important and inevitable conclusion. This text will provide insight into the power electronics sensing, monitoring and control technologies, as well as deeply exploring the communication aspects of smart grids. Preface Contributors Part I Applications 1 Introduction to Smart Grid Applications 1.1 Introduction 1.2 Voltage and Var Control and Optimization 1.3 Fault Detection, Isolation and Restoration (FDIR) 1.4 Demand Response (DR) 1.5 Distributed Energy Resources (DERs) 1.6 Wide-Area Monitoring, Control and Protection (WAMCP) 2 Electric Vehicles as A Driver for Smart Grids 2.1 Introduction 2.2 Plug-In Electric Vehicles and Hybrids 2.3 Hybrids 2.4 The General Electric Delta Car 2.5 Batteries, Ultra capacitors and Semi and Full-Fuel Cells 2.6 Lithium Ion 2.7 Cell Voltage, Reliability of Stacks and Impact of Inverters 2.8 Battery Mass Fraction, Energy, Power, Benefits and a Penalty 2.9 Vehicle Classes, Niches and Constraints 2.10 Messages from Full-Cycle Modeling, Energy Security and Air Quality 2.11 Market Penetration by Vehicle Niche 2.12 Vehicle Architecture, Key Components, Controls and Cost 2.13 Grid to Vehicle (G2V) Charging: Levels 1 to 3 2.14 Grid Impacts 2.15 Vehicle to Grid (V2G): A First or Second Order Matter? 2.16 Second Life for Used Vehicle Batteries Grid-Side Instead? 2.17 The City and the Vehicle 2.18 Impact of Electric Drive on Greenhouse Gas Emissions 2.19 Conclusions 3 Autonomous Demand-Side Management 3.1 Introduction 3.2 Direct and Indirect Demand-Side Management 3.3 Autonomous Demand-Side Management 3.4 Optimal Energy Consumption Scheduling 3.5 Price Prediction 3.6 Managing User-Side Storage and Generation 3.7 Conclusion 4 Power Electronics for Monitoring, Signaling and Protection 4.1 Introduction 4.2 Power Line Communication 4.3 Condition Monitoring and Fault Detection 4.4 Active Protection 4.5 Power Electronics Signaling Technology 4.6 Conclusions Part II Communications 5 Introduction to Smart Grid Communications 5.1 Introduction 5.2 An Overview of Network Architecture 5.3 Premises Network 5.4 Neighborhood Area Network 5.5 Wide Area Network 5.6 Standardization Activities 5.7 Conclusions 6 Wireless Communications in Smart Grids 6.1 Introduction 6.2 Wireless Personal Area Networks 6.3 Wireless Local Area Networks 6.4 Wireless Metropolitan Area Networks 6.5 Cellular Networks 6.6 Satellite Communications 6.7 Conclusions 7 Wireline Communications in Smart Grids 7.1 Introduction 7.2 Phone Line Technology 7.3 Coaxial Cable Technologies 7.4 Power Line Technology 7.4.1 PLC Scenarios, Channel and Noise Aspects 7.5 Conclusions 8 Optical Communications in Smart Grids 8.1 Introduction 8.2 Passive Optical Networks (PONs) 8.3 Wave Lengh Division Multiplexing (WDM) 8.4 SONET / SDH 8.5 Carrier Ethernet 8.6 Conclusions 9 Network Layer As Printed Pages: 484., Wiley India Pvt. Ltd, 2015<

2015, ISBN: 9788126557363

Wiley India Pvt. Ltd, 2015. First edition. Softcover. New. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumpin… Plus…

Wiley India Pvt. Ltd, 2015. First edition. Softcover. New. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumping large sums of money into smart grid research, development and deployments. With the potential to reduce carbon dioxide emissions, increase reliability of electricity supply, and increase the efficiency of our energy infrastructure, it is clear that the advancement of these smart grids is an important and inevitable conclusion. This text will provide insight into the power electronics sensing, monitoring and control technologies, as well as deeply exploring the communication aspects of smart grids. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumping large sums of money into smart grid research, development and deployments. With the potential to reduce carbon dioxide emissions, increase reliability of electricity supply, and increase the efficiency of our energy infrastructure, it is clear that the advancement of these smart grids is an important and inevitable conclusion. This text will provide insight into the power electronics sensing, monitoring and control technologies, as well as deeply exploring the communication aspects of smart grids. Preface Contributors Part I Applications 1 Introduction to Smart Grid Applications 1.1 Introduction 1.2 Voltage and Var Control and Optimization 1.3 Fault Detection, Isolation and Restoration (FDIR) 1.4 Demand Response (DR) 1.5 Distributed Energy Resources (DERs) 1.6 Wide-Area Monitoring, Control and Protection (WAMCP) 2 Electric Vehicles as A Driver for Smart Grids 2.1 Introduction 2.2 Plug-In Electric Vehicles and Hybrids 2.3 Hybrids 2.4 The General Electric Delta Car 2.5 Batteries, Ultra capacitors and Semi and Full-Fuel Cells 2.6 Lithium Ion 2.7 Cell Voltage, Reliability of Stacks and Impact of Inverters 2.8 Battery Mass Fraction, Energy, Power, Benefits and a Penalty 2.9 Vehicle Classes, Niches and Constraints 2.10 Messages from Full-Cycle Modeling, Energy Security and Air Quality 2.11 Market Penetration by Vehicle Niche 2.12 Vehicle Architecture, Key Components, Controls and Cost 2.13 Grid to Vehicle (G2V) Charging: Levels 1 to 3 2.14 Grid Impacts 2.15 Vehicle to Grid (V2G): A First or Second Order Matter? 2.16 Second Life for Used Vehicle Batteries Grid-Side Instead? 2.17 The City and the Vehicle 2.18 Impact of Electric Drive on Greenhouse Gas Emissions 2.19 Conclusions 3 Autonomous Demand-Side Management 3.1 Introduction 3.2 Direct and Indirect Demand-Side Management 3.3 Autonomous Demand-Side Management 3.4 Optimal Energy Consumption Scheduling 3.5 Price Prediction 3.6 Managing User-Side Storage and Generation 3.7 Conclusion 4 Power Electronics for Monitoring, Signaling and Protection 4.1 Introduction 4.2 Power Line Communication 4.3 Condition Monitoring and Fault Detection 4.4 Active Protection 4.5 Power Electronics Signaling Technology 4.6 Conclusions Part II Communications 5 Introduction to Smart Grid Communications 5.1 Introduction 5.2 An Overview of Network Architecture 5.3 Premises Network 5.4 Neighborhood Area Network 5.5 Wide Area Network 5.6 Standardization Activities 5.7 Conclusions 6 Wireless Communications in Smart Grids 6.1 Introduction 6.2 Wireless Personal Area Networks 6.3 Wireless Local Area Networks 6.4 Wireless Metropolitan Area Networks 6.5 Cellular Networks 6.6 Satellite Communications 6.7 Conclusions 7 Wireline Communications in Smart Grids 7.1 Introduction 7.2 Phone Line Technology 7.3 Coaxial Cable Technologies 7.4 Power Line Technology 7.4.1 PLC Scenarios, Channel and Noise Aspects 7.5 Conclusions 8 Optical Communications in Smart Grids 8.1 Introduction 8.2 Passive Optical Networks (PONs) 8.3 Wave Lengh Division Multiplexing (WDM) 8.4 SONET / SDH 8.5 Carrier Ethernet 8.6 Conclusions 9 Network Layer As Printed Pages: 484., Wiley India Pvt. Ltd, 2015<

2015, ISBN: 9788126557363

Wiley India Pvt. Ltd, 2015. First edition. Softcover. New. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumpin… Plus…

Wiley India Pvt. Ltd, 2015. First edition. Softcover. New. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumping large sums of money into smart grid research, development and deployments. With the potential to reduce carbon dioxide emissions, increase reliability of electricity supply, and increase the efficiency of our energy infrastructure, it is clear that the advancement of these smart grids is an important and inevitable conclusion. This text will provide insight into the power electronics sensing, monitoring and control technologies, as well as deeply exploring the communication aspects of smart grids. Smart grids represent what many believe to be the next big technological revolution since the internet. Governments are pumping large sums of money into smart grid research, development and deployments. With the potential to reduce carbon dioxide emissions, increase reliability of electricity supply, and increase the efficiency of our energy infrastructure, it is clear that the advancement of these smart grids is an important and inevitable conclusion. This text will provide insight into the power electronics sensing, monitoring and control technologies, as well as deeply exploring the communication aspects of smart grids. Preface Contributors Part I Applications 1 Introduction to Smart Grid Applications 1.1 Introduction 1.2 Voltage and Var Control and Optimization 1.3 Fault Detection, Isolation and Restoration (FDIR) 1.4 Demand Response (DR) 1.5 Distributed Energy Resources (DERs) 1.6 Wide-Area Monitoring, Control and Protection (WAMCP) 2 Electric Vehicles as A Driver for Smart Grids 2.1 Introduction 2.2 Plug-In Electric Vehicles and Hybrids 2.3 Hybrids 2.4 The General Electric Delta Car 2.5 Batteries, Ultra capacitors and Semi and Full-Fuel Cells 2.6 Lithium Ion 2.7 Cell Voltage, Reliability of Stacks and Impact of Inverters 2.8 Battery Mass Fraction, Energy, Power, Benefits and a Penalty 2.9 Vehicle Classes, Niches and Constraints 2.10 Messages from Full-Cycle Modeling, Energy Security and Air Quality 2.11 Market Penetration by Vehicle Niche 2.12 Vehicle Architecture, Key Components, Controls and Cost 2.13 Grid to Vehicle (G2V) Charging: Levels 1 to 3 2.14 Grid Impacts 2.15 Vehicle to Grid (V2G): A First or Second Order Matter? 2.16 Second Life for Used Vehicle Batteries Grid-Side Instead? 2.17 The City and the Vehicle 2.18 Impact of Electric Drive on Greenhouse Gas Emissions 2.19 Conclusions 3 Autonomous Demand-Side Management 3.1 Introduction 3.2 Direct and Indirect Demand-Side Management 3.3 Autonomous Demand-Side Management 3.4 Optimal Energy Consumption Scheduling 3.5 Price Prediction 3.6 Managing User-Side Storage and Generation 3.7 Conclusion 4 Power Electronics for Monitoring, Signaling and Protection 4.1 Introduction 4.2 Power Line Communication 4.3 Condition Monitoring and Fault Detection 4.4 Active Protection 4.5 Power Electronics Signaling Technology 4.6 Conclusions Part II Communications 5 Introduction to Smart Grid Communications 5.1 Introduction 5.2 An Overview of Network Architecture 5.3 Premises Network 5.4 Neighborhood Area Network 5.5 Wide Area Network 5.6 Standardization Activities 5.7 Conclusions 6 Wireless Communications in Smart Grids 6.1 Introduction 6.2 Wireless Personal Area Networks 6.3 Wireless Local Area Networks 6.4 Wireless Metropolitan Area Networks 6.5 Cellular Networks 6.6 Satellite Communications 6.7 Conclusions 7 Wireline Communications in Smart Grids 7.1 Introduction 7.2 Phone Line Technology 7.3 Coaxial Cable Technologies 7.4 Power Line Technology 7.4.1 PLC Scenarios, Channel and Noise Aspects 7.5 Conclusions 8 Optical Communications in Smart Grids 8.1 Introduction 8.2 Passive Optical Networks (PONs) 8.3 Wave Lengh Division Multiplexing (WDM) 8.4 SONET / SDH 8.5 Carrier Ethernet 8.6 Conclusions 9 Network Layer As Printed Pages: 484., Wiley India Pvt. Ltd, 2015<