株式会社グローバルインフォメーション
TEL: 044-952-0102
市場調査レポート

高温エネルギー貯蔵技術 (HiTES) の世界市場

High Temperature Energy Storage (HiTES)

発行 Global Industry Analysts, Inc. 商品コード 341991
出版日 ページ情報 英文 153 Pages
納期: 即日から翌営業日
価格
本日の銀行送金レート: 1USD=114.71円で換算しております。

ご注意:Single user licenseはDRM(デジタル著作権管理システム)付PDFとなります。
PDFの閲覧には Adobe Digital Editions (無償)のインストールが必要となります。
認証されたPC上のみでの閲覧と、1回のプリントアウトが可能となっております。

Back to Top
高温エネルギー貯蔵技術 (HiTES) の世界市場 High Temperature Energy Storage (HiTES)
出版日: 2015年09月01日 ページ情報: 英文 153 Pages
概要

当レポートでは、高温エネルギー貯蔵技術 (HiTES) の世界市場を取り上げ、溶融塩、NaS (ナトリウム硫黄) 、およびNaMX (ナトリウム金属ハロゲン化物) のバッテリー化学別の分析を行い、2013年から2020年に至る各年の実績/推定および予測を提供するとともに、主要企業およびニッチ企業36社のプロファイルをまとめています。

第1章 イントロダクション、調査方法、製品定義

  • 調査の信頼性とレポートの制約
  • 免責事項
  • データの解釈とレポート作成レベル
    • 定量技法および分析法
  • 製品の定義と調査範囲

第2章 世界市場レポート

  • 産業概要
    • 高温エネルギー貯蔵:より低いCAPEXとより長い寿命の技術
    • ナトリウム電池 (NaS、NaMX) :長所と短所
    • 競合情勢
    • 国際的展望
  • 市場動向、課題、市場発展促進要因
    • 世界で主流化している集光型太陽熱発電 (CSP) :溶融塩エネルギー貯蔵にとっての強力な成長促進要因
    • CSPプロジェクトに対する投資の拡大は溶融塩TESシステムにとって好都合
    • CSPプラントにおける熱電動流体としての溶融塩の大きな可能性
    • 溶融塩貯蔵技術の主要な研究イニシアチブ
    • CSPプラントにおける溶融塩貯蔵として想定される代替技術:懸念の原因?
    • 再生可能エネルギー源 (RES) に対する注目の拡大:溶融塩貯蔵の豊富な機会
    • スマートグリッド基準の順調な発展が溶融塩エネルギー貯蔵を促進
    • エネルギー貯蔵におけるバッテリー技術の主流化は近いうちにNaSバッテリー市場を促進
    • NaSバッテリー:常に高温を維持することがより高い生産コストにつながる
    • より大きなエネルギー容量と耐久性のある化学がNaMXバッテリーの需要を促進
    • マイクログリッド設置の急増がNaMXバッテリーの成長を促進
    • 電気自動車インフラの拡大がNaMXバッテリーの見通しを後押し
    • エネルギーの生産および消費における好ましい動向が市場の見通しを強化
  • 高温エネルギー貯蔵:地域的視点
    • 米国
    • 再生可能エネルギーおよびエネルギー貯蔵が高騰する電気コストを相殺
    • 溶融塩熱エネルギー貯蔵:太陽光発電産業における重要な要素
    • 優遇政策が太陽光発電の市場見通しを後押し
    • NYC (ニューヨーク市) ユーティリーティーの野心的なエネルギー効率化計画が市場成長を促進
    • 日本
    • 再生可能エネルギーに対する注目の拡大がHiTES市場を促進
    • 日本のエネルギー市場の概要
    • 欧州
    • 欧州のエネルギー貯蔵市場における主な成長促進要因
    • グリッド段階貯蔵が西欧において勢いを増す
    • 優遇政府施策がドイツのエネルギー貯蔵市場に恩恵をもたらす
    • アジア太平洋:可能性を持つ市場
    • 中国:急成長中のソーラー産業が溶融塩熱エネルギー貯蔵市場を促進
    • インド:再生可能エネルギーの導入増が市場の拡大をもたらす
    • 技術的な向上によるコスト削減の実現:今必要なこと
    • 南アフリカ
    • エネルギー貯蔵が南アフリカに信頼性の高い値頃な電力を提供
  • 世界のエネルギー貯蔵ソリューション市場:マクロ的視点
    • エネルギー貯蔵技術:分類
    • 多様なエネルギー彫像技術:主な長所と短所
    • 主要エネルギー貯蔵技術と電気、化学、電気化学、機械および熱エネルギーへの応用
    • エネルギー貯蔵プロジェクトへの投資は世界的で安定的に成長
    • 政府の介入がエネルギー貯蔵技術の幅広い導入に重要
    • 主要地域/主要国における温室効果ガス排出量の国内目標
    • 新規プロジェクトおよび政府指令
    • インセンティブおよび標準:エネルギー貯蔵技術促進の鍵
    • 将来的にマイクログリッドがエネルギー貯蔵を促進
    • ナノテクノロジー:エネルギー貯蔵の将来像?
    • エネルギー貯蔵用途向け超低密度のナノチューブバルク材
    • 高耐久性の先進的な化学成分の研究開始
    • 主要なバッテリー技術の種類の特徴
  • 製品概要
    • エネルギー貯蔵:イントロダクション
    • 高温エネルギー貯蔵
    • ナトリウム硫黄 (NaS) バッテリー
    • ナトリウム金属ハロゲン化物 (NaMX) バッテリー (ZEBRAバッテリー)
    • 溶融塩技術
  • 最新産業動向
  • 主要な国際企業
  • 世界市場の展望

第3章 競合情勢

目次
Product Code: MCP-7987

This report analyzes the Global market for High Temperature Energy Storage (HiTES) in US$ Million by the following Battery Chemistries: Molten Salt, NaS (Sodium Sulfur), and NaMx (Sodium Metal Halide). 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 36 companies including many key and niche players such as -

Abengoa Solar, S.A
ACCIONA Energy S.A
Archimede Solar Energy
Areva S.A.S
Bertrams Heatec AG

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

  • High Temperature Energy Storage: Technology with Lower CAPEX and Longer Lifespan
    • Table 1: High Temperature Energy Storage Technologies: Brief Details of Storage Type, Efficiency (%), Number of Cycles, Power Capacity, and Potential Duration
  • Sodium Batteries (NaS and NaMx): Advantages and Disadvantages
  • Competitive Landscape
  • Global Outlook

2. MARKET TRENDS, ISSUES & DRIVERS

  • Rising Prominence of Concentrated Solar Power (CSP) Worldwide: A Strong Growth Driver for Molten Salt Energy Storage
    • Table 2: Key Characteristics of Molten Salt Thermal Energy Storage Systems by TES Type
    • Table 3: Global Solar-Related Energy Storage Market by Technology (2014): Percentage Share Breakdown of Capacity Installations for Batteries, Flywheel, and Thermal (includes corresponding Graph/Chart)
    • Table 4: Global Solar-Related Battery Energy Storage Market by Type (2014): Percentage Share Breakdown of Capacity Installations for Flow Batteries, Lead-Acid, Lithium-ion, and Sodium Batteries (includes corresponding Graph/Chart)
    • Table 5: Global Solar Thermal Power Capacity by Country (2013): Percentage Breakdown of Capacity Installations for Algeria, India, Spain, and the United States (includes corresponding Graph/Chart)
  • Growing Investments in CSP Projects Bodes Well for Molten Salt TES Systems
    • Table 6: Top Ten Countries Worldwide with the Highest Concentrated Solar Power Plant Capacities: 2013 (includes corresponding Graph/Chart)
    • Table 7: Cumulative Capacity Installations of Concentrated Solar Power over the Period 2005-2013 (includes corresponding Graph/Chart)
    • Table 8: Major Commercial Purpose, Operational CSP Plants Worldwide (2013): Brief Details of Country, Name of Plant, Capacity (MW), and CSP Technology
    • Andasol Solar Power Plant (Spain): The Leading Thermal Molten Salt Storage Project
    • EU's Desertec to Offer Major Boost to Concentrated Solar Thermal
  • Immense Potential for Molten Salts as Heat Transfer Fluids in CSP Plants
  • Major Research initiatives in Molten Salt Storage Technology
    • Reduction of Overall System Costs
    • Development of New Technology in CSP Plants
    • New Salt Mixture with Enhanced Heat Storing Capabilities
  • Probable Replacement Technologies for Molten Salt Storage in CSP Plants: A Cause for Concern?
    • Phase Change Materials (PCM) Systems
    • Sand
  • Increasing Focus on Renewable Energy Sources (RES): Opportunities Galore for Molten Salt Storage
    • Table 9: Targets for Electricity Production from Renewable Energy Sources Worldwide by Country
    • Table 10: Percentage of Renewable Sources in Electricity Production Worldwide by Country (includes corresponding Graph/Chart)
    • Table 11: Global Investments (US$ Billion) in Renewable Energy by Source: 2013 (includes corresponding Graph/Chart)
  • Molten Salt Energy Storage Driven by the Steady Evolution of the Smart Grid Standard
    • Table 12: 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)
    • Table 13: NaS and Molten Salt TES Storage Compared with Other Grid Storage Technologies
  • Dominance of Battery Technologies in Energy Storage Drives the NaS Batteries Market in the Near Term
    • Table 14: Global NaS Batteries Market by Application (2014): Percentage Share Breakdown of Capacity Installations for Load Levelling; Emergency Power Supply Application and Load Levelling Combined; Momentary Power Failure Application and Load Levelling Combined; Natural Energy; and Other Applications (includes corresponding Graph/Chart)
  • NaS Batteries: Maintaining High Temperature at All Times Lead to Higher Production Costs
    • Table 15: Various Energy Storage Technologies Ranked on the Basis of Cost ($/KW) (includes corresponding Graph/Chart)
    • Table 16: Production Cost Breakdown (%) of a Typical NaS Battery Storage Plant (includes corresponding Graph/Chart)
  • Higher Energy Capacities and Durable Chemistry Drive Demand for NaMx Batteries
    • Table 17: NaMx Storage Type in Comparison with Other Storage Technologies in EV and Stationary Power Applications
  • Surging Microgrid Installations to Drive Growth for NaMx Batteries
    • Table 18: Global Energy Storage Capacity in Microgrids by Technology (2014): Percentage Share Breakdown of Capacity Installations for Advanced Lithium-ion, Advanced Lead-Acid, Advanced Flow Battery and Sodium Metal Halide (includes corresponding Graph/Chart)
  • Expanding Electric Vehicles Infrastructure to Boost Prospects for NaMx Batteries
    • Table 19: 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 20: Global Electricity Consumption in TWh for Years 2000, 2015 & 2030 (includes corresponding Graph/Chart)
    • Table 21: 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 22: 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 23: Projected Global Demand for Primary Energy (Mtoe) and Electricity (MWh): 2015, 2020, 2025, 2030 & 2035 (includes corresponding Graph/Chart)
    • Table 24: Global Total Primary Energy Supply (Excluding Energy Stored in International Marine and Aviation Bunkers) in Units by Region (2013): Percentage Breakdown of Supply Volumes for OECD, China, Asia (excluding China), Non-OECD Europe and Eurasia, Africa, Middle East, and Non-OECD Americas (includes corresponding Graph/Chart)
    • Table 25: Investments in New Power Plants by Geographic Region (2012): Percentage Breakdown for Coal, Natural Gas, Oil, Nuclear Power, and Renewable Energy (includes corresponding Graph/Chart)
    • Table 26: 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)

3. HIGH TEMPERATURE ENERGY STORAGE: A REGIONAL PERSPECTIVE

  • The United States
  • Renewable Energy and Energy Storage to Help Offset Escalating Electricity Cost
  • Molten Salt Thermal Energy Storage: A Vital Component of the Solar Power Industry
    • Table 27: 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 28: 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)
    • Strong Growth for Solar Energy to Drive Demand for Molten Salt Storage Technology
    • Table 29: Major Solar Projects in Development Phase in the US: Brief Details of Project Name, Capacity in MW, and Location (State) (includes corresponding Graph/Chart)
  • Favorable Policies Boosts Market Prospects for Solar Power Generation
    • Table 30: Power Plant Capacity Additions (MW) in the US by Type of Power: 2013 (includes corresponding Graph/Chart)
  • NYC Utility's Ambitious Plans for Energy Efficiency to Drive Market Growth
    • Table 31: Incentives under ConEd's Demand Management Program by Storage Technology
  • Japan
  • Increasing Focus on Renewable Energy Drives the HiTES Market
  • Japanese Energy Market Overview
  • Europe
  • Key Growth Driving Factors in the European Energy Storage Market
  • Grid Level Storage Gains Momentum in Western Europe
  • Favorable Government Policies Benefit the German Energy Storage Market
  • Asia-Pacific: A Potential Laden Market
  • China: Booming Solar Industry Drives the Molten Salt Thermal Energy Storage Market
    • Outlook for Energy Storage Market in China
  • India: Increasing Adoption of Renewable Energy Augurs Well for Market Expansion
  • Technological Improvements for Realizing Cost Reductions: Need of the Hour
  • South Africa
  • Energy Storage to Deliver Reliable and Affordable Electricity in South Africa

4. GLOBAL ENERGY STORAGE SOLUTIONS MARKET: A MACRO PERSPECTIVE

  • Energy Storage Technologies: Classification
    • Table 32: 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 33: 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 34: 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 35: 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 36: 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 in the Future
    • Table 37: 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

5. PRODUCT OVERVIEW

  • Energy Storage: Introduction
  • High Temperature Energy Storage
  • Sodium Sulfur (NaS) Battery
    • Major Properties of NaS Batteries
    • NaS batteries-Chemistry
    • NaS Batteries-Construction and Operation
    • Safety Concerns
      • Major Applications of NaS Batteries
      • Grid Energy Storage Support
      • Space Applications
      • Heavy Machinery and Transport
  • Sodium Metal Halide (NaMx) Batteries (ZEBRA Batteries)
    • NaMx Battery Components
    • Operating Characteristics
    • Applications
      • Stationary Applications
      • Major stationary applications
  • Molten Salt Technology

6. RECENT INDUSTRY ACTIVITY

  • University of Evora and DLR of Germany Collaborate for Research in the Area of Molten Salt Storage for CSP Plants
  • SolarReserve Secures Environmental Approval for Copiapo Solar Project with Molten Salt Storage Technology
  • Acciona and Sener to Set up Kathu Solar Thermal Plant with Molten Salt Thermal Energy Storage
  • NGK Insulators NaS Electric Energy Storage System at Kashiwa-no-ha Smart City Becomes Operational
  • SolarReserve Takes Over CSP Division of Aerojet Rocketdyne, Reinforces Leadership in Solar Thermal Energy
  • NGK Insulators to Supply NAS Battery to Italian Transmission Grid
  • NGK Insulator to Receive Government Subsidy for Research on NaS Battery
  • Italian Enel Installs Molten Sat Receivers from Schott in its Molten Salt Solar Power Plant

7. FOCUS ON SELECT GLOBAL PLAYERS

  • Abengoa Solar, S.A. (Spain)
  • ACCIONA Energy S.A. (Spain)
  • Archimede Solar Energy
  • Areva S.A.S (France)
  • Bertrams Heatec AG (Switzerland)
  • BrightSource Energy, Inc. (US)
  • FZ SoNick (Switzerland)
  • General Electric Company (US)
  • Idhelio (France)
  • NGK Insulators, Ltd. (Japan)
  • Schott AG (Germany)
  • SENER Group (Spain)
  • Siemens AG (Germany)
  • SolarReserve, LLC. (US)
  • Sumitomo Electric Industries, Ltd. (Japan)
  • TSK Flagsol (Germany)

8. GLOBAL MARKET PERSPECTIVE

    • Table 38: World Recent Past, Current & Future Analysis for High Temperature Energy Storage (HiTES) by Technology - Molten Salt TES, NaS and NaMx Storage Markets Independently Analyzed with Annual Revenues in US$ Millions for Years 2013 through 2020 (includes corresponding Graph/Chart)
    • Table 39: World 8-Year Perspective for High Temperature Energy Storage (HiTES) by Technology - Percentage Breakdown of Dollar Revenues for Molten Salt TES, NaS and NaMx Markets for Years 2013, 2015 & 2020 (includes corresponding Graph/Chart)

III. COMPETITIVE LANDSCAPE

Back to Top