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Produktbild: The Electric Battery

The Electric Battery Charging Forward to a Low-Carbon Future

Fr. 79.90

inkl. gesetzl. MwSt., Versandkostenfrei

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

30.04.2017

Verlag

Bloomsbury Academic

Seitenzahl

232

Maße (L/B/H)

24/16.1/1.7 cm

Gewicht

595 g

Sprache

Englisch

ISBN

978-1-4408-4901-5

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

30.04.2017

Verlag

Bloomsbury Academic

Seitenzahl

232

Maße (L/B/H)

24/16.1/1.7 cm

Gewicht

595 g

Sprache

Englisch

ISBN

978-1-4408-4901-5

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: gpsr@libri.de

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Die Leseprobe wird geladen.
  • Produktbild: The Electric Battery

  • Foreword by Donald R. Sadoway
    Acknowledgments
    Chapter 1 The Electric Battery and a Low-Carbon Future
    Introduction
    What Is an Electric Battery?
    The Electric Battery as Core Climate Solution
    How the Battery Begets Cleaner Cars
    How the Battery Helps Integrate Intermittent Renewables
    The Electric Battery: A Very Brief History
    Why Is It Called a Battery?
    Alessandro Volta and the Voltaic Pile
    Planté and the First Rechargeable Battery
    Leclanché and the First Dry Cell
    Invention of the Alkaline Battery: Jungner versus Edison
    Alkaline's True Arrival: Lewis Urry's Eveready
    The Leading Edge of Lithium
    What's Next?
    Chapter 2 The Technical Challenge: More Powerful and Longer-Lasting Batteries
    Introduction
    Primer: Electricity and Storage
    What Is Energy?
    What Is Electricity?
    How Does Electricity Transport Energy?
    Battery Basics: What Are the Components of a Battery?
    How Is Electric Potential Created?
    Electricity Storage: How Are Batteries Quantified and Compared?
    Traditional Battery Chemistries
    Lithium-Ion Batteries
    Leading-Edge Battery Chemistries
    Beyond the Battery: How Are Batteries Configured for Scalability?
    How Do Batteries Rely on Other Technologies?
    Building the Battery
    Where Do Battery Materials Come From?
    How Are Batteries Manufactured?
    Remaining Technological Challenges
    Conclusion
    Chapter 3 The Battery's Environmental Footprint: How Clean Is the Technology?
    Introduction
    Understanding the Life-Cycle Environmental Impact
    Life-Cycle Assessment Standards
    Goal and Scope: Establishing Boundary Conditions
    Determining Life-Cycle Inventory Analysis
    Evaluating Total Environmental Impact
    Conducting Sensitivity Analyses
    Life-Cycle Environmental Impact of Lithium-Ion Batteries
    Boundary Conditions
    Total Life-Cycle Environmental Impacts
    Impact of Spillover Effects
    Regional Grid Operations
    Associated Social Impacts
    Conclusion: Is the Electric Battery a Clean Technology?
    Chapter 4 The Battery as the Enabler for Electrifying Mobility
    Technological Change and the Automobile
    The Climate Factor
    A Long and Winding Road for Electric Car Development
    Early EV History
    First Regulations for Auto Emissions
    CAFE Standards Set the Stage for an Electric Vehicle Comeback
    California's Zero-Emission Vehicle (ZEV) Regulation
    The Rise and Fall of the EV
    The Popularity of the Toyota Prius
    The Rise of the Modern Electric Vehicle
    The Global EV Leader
    Influential EV Market Factors
    The EV Battery
    Gallons versus Kilowatt Hours
    What Determines EV Range?
    The Current EV Battery Market
    Future Performance and Research
    End of Battery Life and Recycling
    Battery-Charging Infrastructure
    EV Charging Levels and Infrastructure
    Battery Design and Charging
    Electric Vehicle Incentives and Programs
    EV Case Study: California's EV Leadership
    EV Case Study: Blue Indy
    EV Case Study: Norway's Global Leadership
    Mass Transit
    Heavy-Duty Vehicle Market
    Conclusion
    Chapter 5 Batteries for Home and Business Storage: Transforming the Customer Side of the Meter
    Introduction: Energy Storage, the Electric Grid and a Low-Carbon Future
    Tesla's Big Battery Announcement
    Sonnen: German Engineering for Behind-the-Meter Storage
    Batteries for the Home and Business: End-Use Storage Opportunities
    Dynamic Pricing and Solar Energy Arbitrage
    Demand Charge Reduction
    Home Consumption of Solar PV
    Storage as a Backup Energy Resource
    Behind-the-Meter Pricing Plans and Services
    Case Study: SRP-Innovative Demand Rates for Solar and Storage?
    Case Study: SMUD Pioneering Smart Rates and Storage
    SMUD's Plans for Charging Forward?
    Case Study: GMP-Innovative Fees for Battery Services?
    Case Study: Stem Is the Behind-the-Meter Leader in SCE's Storage Procurement
    Concluding Comments
    Chapter 6 Batteries for Grid Storage: Wholesale Electric Markets, Renewables, and Microgrids
    Introduction: Grid-Level Storage
    Bulk Energy Storage Opportunities: Wholesale Markets for Energy Storage
    Markets for Energy and Capacity
    Markets for Ancillary Services
    Transmission Deferral and Congestion Mitigation
    Renewable Energy Integration
    The Utility Scale Battery Storage Market
    Case Study: AES Energy Storage Leading the Grid-Level Transformation
    Other Grid Storage Applications
    Battery Storage as a Virtual Power Plant
    From the Car to the Grid: Reusing End-of-Life Car Batteries for Grid Storage
    Batteries for Grid Resilience: Microgrids and Storage
    Overview of Microgrid Development
    The Path Forward for Grid Storage
    Chapter 7 Alternate Forms of Electric Storage
    Introduction
    Main Applications of Alternative Storage: The Bulk Power System
    Energy and Capacity Storage Opportunities
    Ancillary Services Storage Opportunities
    Energy Storage Systems: Beyond the Battery
    Pumped Hydro
    Case Study: California's Bison Peak Projects
    Case Study: Iowa Hill Pumped Storage Project
    Rail Energy Storage
    Compressed Air Energy Storage
    Case Study: Lightsail Distributed Compressed Air Systems
    Superconducting Magnetic Energy Storage
    Supercapacitors
    Flywheels
    Case Study: Beacon Power
    Thermal Energy Storage
    Pumped Heat Electricity Storage
    Liquid Air Electricity Storage
    Molten Salt
    Case Study: Crescent Dunes Solar Energy Project
    Thermal Ice and Water
    Case Study: Ice Bear
    Conclusion: Ready for Prime Time?
    Chapter 8 Charging Forward to a Low-Carbon Future
    The Paris Agreement
    National Policies that Impact the Electric Battery
    Ending Fossil Fuel Subsidies
    CAFE Standards
    The Clean Power Plan
    The Role of State Policy
    California's Energy Storage Mandate and More
    Other States Follow California's Lead
    The Electric Battery Is Charging Forward
    Notes
    Index
    About the Authors