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市場調查報告書

飛輪儲能(FES)的全球市場

Flywheel Energy Storage (FES)

出版商 Global Industry Analysts, Inc. 商品編碼 346167
出版日期 內容資訊 英文 132 Pages
商品交期: 最快1-2個工作天內
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飛輪儲能(FES)的全球市場 Flywheel Energy Storage (FES)
出版日期: 2015年10月01日 內容資訊: 英文 132 Pages
簡介

本報告涵括飛輪儲能(FES)的全球市場,提供您公共事業規模,UPS(不斷電系統),運輸,及其他用途等的各用途分析,再加上2013年到2020年的各年實際成果/估計及預測,並彙整43家主要企業及利基企業之公司簡介。

第1章 簡介,調查方法,產品定義

  • 調查的可靠性和報告的限制
  • 免責聲明
  • 資料的解釋和報告水準
    • 定量技術及分析法
  • 產品的定義和調查範圍

第2章 全球市場的報告

  • 產業概要
    • 飛輪儲能(FES):實現高功率密度的低成本,低維持費之能源儲存
    • 儘管受惠無數,些微疑慮即阻礙了廣泛引進
    • 成本上的優點
    • 低維修成本
    • 與智慧電網的兼容性
    • 全球市場的展望
    • 擴大的用途基礎促進市場擴大
    • 競爭情形
    • 全球主要飛輪儲能製造商清單,可配合的市場/用途部門
    • 主要的飛輪儲能系統廠商:概要簡介
    • Beacon Power Corporation
    • Vycon Energy
    • Piller
    • Active Power
  • 市場趨勢,市場發展推動因素
    • 飛輪儲能受到智慧電網標準的穩定發展所促進
    • 飛輪儲能的複合材料:引領成長的主要發展
    • 飛輪儲能安全實驗:為了測試複合飛輪儲能的缺點機構而不可或缺
    • 消費者意識的擴大促進飛輪儲能UPS的需求
    • 再生能源關注度的擴大:對FES而言的豐富的機會
    • 太陽能的普及擴大對FES系統的引進而言是好的徵兆
    • 全球性風力發電的擴大提供一大成長機會
    • 全球主要風力發電國(2013年):基於主要風力指標的排行榜
    • 微電網容量的劇增對市場擴大而言正是好機會
    • 電動車的普及擴大促進FES市場成長
    • 能源生產及消費上的偏好趨勢強化了市場展望
    • 美國:全球主導性飛輪儲能市場
    • 再生能源和能源儲存有助於抵消高漲的電力成本
  • 能源儲存解決方案:宏觀觀點
    • 能源儲存:對擴大再生能源而言不可或缺
    • 對能源儲存而言的主要成長推動因素
    • 能源儲存技術:分類
    • 抽蓄水力貯存:對電網應用而言可利用的最大能源儲存容量
    • 能源儲存計劃的投資全球正穩定性地成長
    • 在能源儲存技術的廣泛引進中政府的干預相當重要
    • 主要地區/國家上溫室效應氣體排放量目標
    • 新計劃及政府指令
    • 獎勵及標準:推動能源儲存技術發展的關鍵
    • 微電網未來將促進能源儲存市場
    • 奈米技術:能源儲存的未來像?
    • 能源貯存用超低密度奈米碳管型散裝材料
    • 高耐用性的先進性化學成分之研究正在發展中
    • 主要的電池技術類型的特徵
  • 產品概要
    • 飛輪儲能:優點與課題
    • 飛輪儲能的行動
    • 飛輪儲能的種類
    • 飛輪儲能的發展
    • 舊式飛輪儲能
    • 工業革命時開發的飛輪儲能
    • 近代的飛輪儲能
    • 飛輪儲能(FES)的物理的特性
    • 一般的特性
    • 形狀
    • 能量密度
    • 複合轉子
    • 材料的性質
    • 飛輪儲能的能源儲存效率
    • 飛輪儲能系統的零組件
    • 飛輪儲能轉子
    • 軸承
    • 馬達發電機
    • 電力電子技術
    • 控制設備和器具
    • 機殼
    • 飛輪儲能與電池:比較
    • 飛輪儲能:主要用途
    • UPS系統
    • 電網能源儲存
    • 道路運輸
    • 鐵路火車頭
    • 鐵路電氣化
    • 科學研究所
    • 飛機發射系統
    • NASA的G2飛輪儲能
    • 其他的用途
      • 遊樂場
      • 脈衝電力
      • motor sports
      • 玩具
      • 雙態元件作用發表會
  • 最新產業趨勢
  • 產品的創新/發表
  • 主要的國際企業
  • 全球市場的展望

第3章 競爭情形

目錄
Product Code: MCP-7989

This report analyzes the Global market for Flywheel Energy Storage (FES) in US$ Thousand by the following Applications Utility Scale, UPS, Transportation, and Others. Annual estimates and forecasts are provided for the period 2013 through 2020. Market data and analytics are derived from primary and secondary research. Company profiles are primarily based on public domain information including company URLs. The report profiles 43 companies including many key and niche players such as -

Active Power Inc.
AFS Trinity Power
Alstom Transport
Amber Kinetics, Inc.
Beacon Power, LLC

Table of Contents

I. INTRODUCTION, METHODOLOGY & PRODUCT DEFINITIONS

  • Study Reliability and Reporting Limitations
  • Disclaimers
  • Data Interpretation & Reporting Level
    • Quantitative Techniques & Analytics
  • Product Definitions and Scope of Study

II. A GLOBAL MARKET REPORT

1. INDUSTRY OVERVIEW

  • Flywheel Energy Storage (FES): Low Cost and Low Maintenance Energy Storage with High Power Density
  • Despite Myriad Benefits, Few Concerns Continue to Hamper Widespread Adoption
  • Cost Benefits
  • Low Maintenance Costs
  • Compatibility with Smart Grids
    • Table 1: Flywheel Energy Storage Compared with Other Energy Storage Technologies
  • Global Market Outlook
  • Expanding Application Base Benefit Market Expansion
  • Competitive Landscape
  • List of Leading Flywheel Manufacturers Worldwide and Addressable Market/Application Segment
  • Leading Flywheel Energy Storage System Manufacturers: Snapshot Profiles
  • Beacon Power Corporation
  • Vycon Energy
  • Piller
  • Active Power

2. MARKET TRENDS & DRIVERS

  • Flywheel Energy Storage Driven by the Steady Evolution of the Smart Grid Standard
    • Table 2: Global Spend on Smart Grid Technologies by Region (2014, 2017 & 2020): Cumulative Spending (in US$ Billion) for Asia-Pacific (incl. China), Europe, Latin America, and North America (includes corresponding Graph/Chart)
  • Composite Materials in Flywheels: A Major Advancement Spearheading Growth
  • Flywheel Safety Test: Essential for Testing Failure Mechanisms of Composite Flywheels
  • Increasing Consumer Awareness Drive Demand for Flywheel UPS
  • Increasing Focus on Renewable Energy Sources: Opportunities Galore for FES
    • Table 3: Targets for Electricity Production from Renewable Energy Sources Worldwide by Country
    • Table 4: Percentage of Renewable Sources in Electricity Production Worldwide by Country (includes corresponding Graph/Chart)
    • Table 5: Global Investments (US$ Billion) in Renewable Energy by Source: 2013 (includes corresponding Graph/Chart)
  • Growing Prominence of Solar Power Bodes Well for FES Systems Adoption
    • Table 6: Global Solar PV Installations by Region (2013): Percentage Share Breakdown of Volume Installations for Americas, Asia (Excluding China), China, Europe, and Rest of World (includes corresponding Graph/Chart)
    • Table 7: International Targets for Solar Photovoltaics for Select Countries
  • Expanding Wind Power Generation Worldwide Offers Significant Growth Opportunities
  • Leading Wind Power Countries Worldwide (2013): Ranking Based on Key Wind Power Facts
  • Surging Microgrid Capacity Augurs Well for Market Expansion
  • Increasing Penetration of Electric Cars to Promote FES Market Growth
    • Table 8: World Market for Electric Vehicles (2013): Percentage Breakdown of Unit Sales by Product Type (includes corresponding Graph/Chart)
  • Favorable Trends in Energy Production and Consumption Strengthens Market Prospects
    • Table 9: Global Electricity Consumption in TWh for Years 2000, 2015 & 2030 (includes corresponding Graph/Chart)
    • Table 10: Global Electricity Production by Country (2013): Percentage Breakdown of Electricity Production Volume for China, United States, India, Russia, Japan, Canada, Germany, Brazil, France, South Korea, and Others (includes corresponding Graph/Chart)
    • Table 11: Global Electricity Consumption by Country (2013): Percentage Breakdown of Electricity Consumption Volume for China, United States, Japan, Russia, India, Germany, Canada, Brazil, South Korea, France, and Others (includes corresponding Graph/Chart)
    • Table 12: Projected Global Demand for Primary Energy (Mtoe) and Electricity (MWh): 2015, 2020, 2025, 2030 & 2035 (includes corresponding Graph/Chart)
    • Table 13: Estimated Global Power Generation Infrastructure Requirement (in US$ Billion) for China, India, Latin America, and North America over the Period 2010-2030 (includes corresponding Graph/Chart)
  • The United States: A Leading Flywheel Energy Storage Market Worldwide
    • Table 14: US Recent Past, Current & Future Analysis for Flywheel Energy Storage Analyzed with Annual Utility Scale Installed Capacity in Megawatts for Years 2013 through 2020 (includes corresponding Graph/Chart)
  • Renewable Energy and Energy Storage to Help Offset Escalating Electricity Cost
    • Table 15: The US Grid Energy Storage Market by Technology (2014): Percentage Share Breakdown of Capacity Installations for Pumped Hydro Storage and Other Technologies (includes corresponding Graph/Chart)
    • Table 16: The US Grid Energy Storage Market by Technology Other than Pumped Storage (2014): Percentage Share Breakdown of Capacity Installations for CAES, Flywheels, Ice Thermal Storage, Li-ion, NaS Batteries, Ni-Cad Batteries and Others (includes corresponding Graph/Chart)

3. ENERGY STORAGE SOLUTIONS: A MACRO PERSPECTIVE

  • Energy Storage: Vital for the Expansion of Renewable Energy Sources
  • Major Growth Driving Factors for Energy Storage
  • Energy Storage Technologies: Classification
  • Pumped Hydro Storage: Largest Available Energy Storage Capacity for Grid Applications
    • Table 17: Global Energy Storage Market by Technology (2014): Percentage Share Breakdown of Installed Capacity for Traditional Pumped Storage and Other Technologies (includes corresponding Graph/Chart)
    • Table 18: Global Energy Storage Market by Technology Other than Pumped Storage (2014): Percentage Share Breakdown of Installed Capacity for Capacitor, Compressed Air, Flow Battery, Flywheel, Gravitational Storage, Lead Acid Battery, Li-ion, Molten Salt Energy and Others (includes corresponding Graph/Chart)
    • Table 19: Leading Energy Storage Technology Vendors Worldwide (2013): Percentage Market Share Breakdown Based on Capacity for Allis Chalmers, Alstom, CKD Blankso, Gridflex, Harbin, Hydrodynamics Group, Riverbank Power, Sichuan Dongfeng Electric, Voith and Others (includes corresponding Graph/Chart)
    • Table 20: Energy Storage Technologies: Key Features Comparison for PHS, CAES, Flywheel, NaS Battery, Li-ion Battery, Flow Battery, Supercapacitor, SMES, Molten Salt, Hydrogen, and SNG Technology
    • Various Energy Storage Technologies: Key Advantages & Disadvantages
    • Key Energy Storage Technologies & Applications for Electrical, Chemical, Electrochemical, Mechanical and Thermal Energy
  • Investment in Energy Storage Projects Witness Steady Growth Worldwide
    • Table 21: Number of Energy Storage Projects by Country: 2014 (includes corresponding Graph/Chart)
  • Government Intervention Critical to Widespread Adoption of Energy Storage Technologies
  • Domestic Targets for Greenhouse Gas Emissions of Select Regions/Countries
  • New Projects & Government Mandates
  • Incentives & Standards: Key to Promoting Energy Storage Technologies
  • Microgrids to Drive Energy Storage Market in the Future
    • Table 22: A Glance at Largest Power Blackouts/ Outages Worldwide
  • Nanotechnology: The Future of Energy Storage?
  • Nanotubular Bulk Material with Ultra-Low Density for Energy Storage Applications
  • Research on for High Durability and Advanced Chemical Compositions
  • Characteristics of Select Battery Technology Types

4. PRODUCT OVERVIEW

  • A Prelude
  • Flywheels: Benefits and Challenges
  • Operation of Flywheels
  • Types of Flywheel Energy Storage
  • Evolution of Flywheels
  • Ancient Flywheels
  • Flywheels Developed during Industrial Revolution
  • Modern Flywheels
  • Physical Features of Flywheel Energy Storage (FES)
  • General Features
  • Geometry
  • Energy Density
  • Composite Rotors
  • Properties of Materials
  • Energy Storage Efficiency of Flywheels
  • Components of Flywheel Systems
  • Flywheel Rotor
  • Bearings
  • Motor Generator
  • Power Electronics
  • Controls and Instrumentation
  • Housing
  • Flywheels and Batteries: A Comparison
  • Flywheel Energy Storage: Key Applications
  • UPS Systems
  • Grid Energy Storage
  • Road Transportation
  • Railway Locomotives
  • Railway Electrification
  • Scientific Labs
  • Aircraft Launching Systems
  • G2 Flywheel of NASA
  • Other Applications
    • Amusement Parks
    • Pulse Power
    • Motor Sports
    • Toys
    • Toggle Action Presses

5. RECENT INDUSTRY ACTIVITY

  • Hybrid flywheel system service facility Established in Europe
  • Beacon Inks Agreement with Chugach Electric for Installing an Hybrid Battery and Flywheel Energy Storage Project in the State of Alaska
  • Quantum Creates Alternative Flywheel System Design for Camp Pendleton Microgrid
  • GKN to Acquire Flywheel Energy Storage Business from Williams Hybrid Power
  • Beacons' Hazle Township's Flywheel Energy Storage Systems Manufacturing Plant Commences Full Commercial Operations
  • Beacon Signs Agreement with ERICA Campus of Hanyang University for Transfer of Korean Core Energy Storage Technology
  • Vycon to Supply Flywheel Energy Storage Systems to The Benito Juarez International Airport in Mexico
  • Beacon Partners with TDX to Demonstrate a Flywheel Energy Storage System for Wind Power
  • Beacon Installs Flywheel Energy Storage Systems at Plant in Pennsylvania
  • Vycon Flywheel Systems Extends Partnership with EasyStreet(r) Online Services

6. FOCUS ON SELECT GLOBAL PLAYERS

  • Active Power Inc. (US)
  • AFS Trinity Power (US)
  • Alstom Transport (France)
  • Amber Kinetics, Inc. (US)
  • Beacon Power, LLC (US)
  • Calnetix Technologies, LLC (US)
  • Centre for Concepts in Mechatronics B.V. (CCM) (The Netherlands)
  • GKN Hybrid Power (UK)
  • Kinetic Traction Systems, Inc. (US)
  • Piller Group GmbH (Germany)
  • POWERTHRU (US)
  • STORNETIC GmbH (Germany)
  • Temporal Power Ltd. (Canada)

7. GLOBAL MARKET PERSPECTIVE

  • A. Volume Analytics
    • Table 23: World Recent Past, Current & Future Analysis for Flywheel Energy Storage by Geographic Region - The US and Rest of World Markets Independently Analyzed with Annual Utility-Scale Installed Capacity in Megawatts for Years 2013 through 2020 (includes corresponding Graph/Chart)
    • Table 24: World 8-Year Perspective for Flywheel Energy Storage by Geographic Region/Country - Percentage Breakdown of Annual Utility-Scale Installed Capacity for The US and Rest of World Markets for Years 2013, 2015 & 2020 (includes corresponding Graph/Chart)
  • B. Value Analytics
    • Table 25: World Recent Past, Current & Future Analysis for Flywheel Energy Storage by Application - Utility-Scale, UPS, Transportation and Others Markets Independently Analyzed with Annual Spending on Technology in US$ Thousand for Years 2013 through 2020 (includes corresponding Graph/Chart)
    • Table 26: World 8-Year Perspective for Flywheel Energy Storage by Application - Percentage Breakdown of Dollar Spending for Utility-Scale, UPS, Transportation and Others Markets for Years 2013, 2015 & 2020 (includes corresponding Graph/Chart)

COMPETITIVE LANDSCAPE

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