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세계의 장기 에너지 저장 시장 분석과 예측 : 플로우 배터리, 용융염 배터리, 리튬이온 배터리, 기타 첨단 배터리, CAES, 양수 발전, P2G(Power-to-Gas)

Long Duration Energy Storage - Flow, Molten Salt, Li-Ion, and Other Advanced Batteries, CAES, Pumped Storage, and Power-to-Gas: Global Market Analysis and Forecasts

리서치사 Navigant Research
발행일 2018년 11월 상품 코드 749535
페이지 정보 영문 48 Pages; 46 Tables, Charts & Figures
가격
US $ 3,800 ₩ 4,314,500 PDF & Excel by E-mail (Basic License)
US $ 5,700 ₩ 6,471,700 PDF & Excel by E-mail (Enterprise License)


세계의 장기 에너지 저장 시장 분석과 예측 : 플로우 배터리, 용융염 배터리, 리튬이온 배터리, 기타 첨단 배터리, CAES, 양수 발전, P2G(Power-to-Gas) Long Duration Energy Storage - Flow, Molten Salt, Li-Ion, and Other Advanced Batteries, CAES, Pumped Storage, and Power-to-Gas: Global Market Analysis and Forecasts
발행일 : 2018년 11월 페이지 정보 : 영문 48 Pages; 46 Tables, Charts & Figures

출력이 변동하는 재생에너지가 급성장하면서 그리드 오퍼레이터에게 그리드의 안정성·유효성에 대한 과제가 명확해지는 가운데 장기 에너지 저장(Long Duration Energy Storage)에 대한 관심이 높아지고 있습니다. 전통 화석연료에 의한 발전에서 출력 변동성 재생에너지로 구성되는 그리드로의 이동이 진행되는 가운데 장기 에너지 저장 기술은 전력 시스템에 더욱 더 필요해질 전망입니다.

세계의 장기 에너지 저장 기술 시장을 조사했으며, 시장의 정의와 개요, 장기 에너지 저장의 각종 용도·도입처, 시장 성장 촉진요인과 장벽, 주요 기술의 종류와 개요, 기술·용도·저장 기간별 연간 설치용량·도입 매출의 추이와 예측, 주요 기업의 개요, 각종 제안 등을 정리하여 전해드립니다.

제1장 개요

  • 서론
  • 시장 예측

제2장 시장 분석

  • 장기 에너지 저장의 각종 용도
    • 재생에너지로의 이동
    • T&D 자산의 최적화
    • 예비 용량
    • 탄성(Resiliency)·마이크로그리드
  • 시장 성장 촉진요인
    • 재생에너지의 성장
    • 정부에 의한 지원
    • 경쟁 기술의 부재
  • 시장 장벽
    • 지역적 제약
    • 신기술에 대한 불신감
    • 낮은 전지 효율 성능(Round-Trip Efficiency)
    • 가격
  • 주요 기술
    • 압축 공기
    • 플로우 배터리
    • 하이브리드 에너지 저장 시스템
    • 액화 공기
    • 용융염 배터리
    • 기타 첨단 배터리
    • P2G(Power-to-Gas)
    • 양수 발전
    • 열저장

제3장 주요 기업

  • 서론
  • CellCube Energy Storage
  • ESS Inc.
  • Highview Power
  • Hydrostor
  • ITM Power
  • Lockheed Martin Energy
  • redT
  • UniEnergy Technologies
  • Vionx Energy
  • 기타

제4장 시장 예측

  • 조사 방법·전제 요인
  • 시장 예측 : 기술별
  • 시장 예측 : 용도별
  • 시장 예측 : 기간별
  • 결론·제안

제5장 약어 리스트

제6장 목차

제7장 도표

KSA 18.12.05

List of Charts and Figures

  • Annual Installed Long Duration Storage Energy Capacity and Deployment Revenue by Region, All Applicable Technologies, Durations, and Applications: 2018-2027
  • Utility-Scale Energy Storage System Installed Cost CAPEX Assumptions, Long Duration Technologies, World Averages: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity and Deployment Revenue by Technology, All Applications, Durations, and Regions: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity and Deployment Revenue by Application, All Applicable Technologies, Durations, and Regions: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity and Deployment Revenue by Duration, All Applicable Technologies, Applications, and Regions: 2018-2027

List of Tables

  • Utility-Scale Energy Storage System Installed Cost CAPEX Assumptions, Long Duration Technologies, World Averages: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Region, All Applicable Technologies, Durations, and Applications, World Markets: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Technology, All Regions, Durations, and Applications, World Markets: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Applications, All Regions, Durations, and Applicable Technologies, World Markets: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Duration, All Regions, Applications, and Applicable Technologies, World Markets: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Region, All Applicable Technologies, Durations, and Applications, World Markets: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Technology, All Regions, Durations, and Applications, World Markets: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Application, All Regions, Durations, and Applicable Technologies, World Markets: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Duration, All Regions, Applications, and Applicable Technologies, World Markets: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Application and Duration, All Applicable Technologies, North America: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Technology and Duration, All Applications, North America: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Application and Duration, All Applicable Technologies, North America: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Technology and Duration, All Applications, North America: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Application and Duration, All Applicable Technologies, Western Europe: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Technology and Duration, All Applications, Western Europe: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Application and Duration, All Applicable Technologies, Western Europe: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Technology and Duration, All Applications, Western Europe: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Application and Duration, All Applicable Technologies, Eastern Europe: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Technology and Duration, All Applications, Eastern Europe: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Application and Duration, All Applicable Technologies, Eastern Europe: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Technology and Duration, All Applications, Eastern Europe: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Application and Duration, All Applicable Technologies, Asia Pacific: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Technology and Duration, All Applications, Asia Pacific: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Application and Duration, All Applicable Technologies, Asia Pacific: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Technology and Duration, All Applications, Asia Pacific: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Application and Duration, All Applicable Technologies, Latin America: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Technology and Duration, All Applications, Latin America: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Application and Duration, All Applicable Technologies, Latin America: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Technology and Duration, All Applications, Latin America: 2018-2027
  • Annual Installed Long Duration Energy Storage Energy Capacity by Application and Duration, All Applicable Technologies, Middle East: 2018-2027
  • Annual Installed Long Duration Energy Storage Energy Capacity by Technology and Duration, All Applications, Middle East: 2018-2027
  • Annual Long Duration Energy Storage Deployment Revenue by Application and Duration, All Applicable Technologies, Middle East: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Technology and Duration, All Applications, Middle East: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Application and Duration, All Applicable Technologies, Africa: 2018-2027
  • Annual Installed Long Duration Storage Energy Capacity by Technology and Duration, All Applications, Africa: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Application and Duration, All Applicable Technologies, Africa: 2018-2027
  • Annual Long Duration Storage Deployment Revenue by Technology and Duration, All Applications, Africa: 2018-2027
  • Long Duration Energy Storage Application Details
  • Estimated Average Round-Trip Efficiency by Technology
  • Average Discharge Duration Assumption by Technology, Utility-Scale, Long Duration Applications
  • Other Industry Participants

The development of the stationary energy storage industry over the past decade has primarily focused on short duration energy storage applications and grid services. These applications, such as frequency regulation, only require a limited discharge duration and are well-suited to technologies such as Li-ion batteries that have far lower costs at shorter durations. However, there is typically a finite demand for these services. As the penetration of renewable energy generation increases, new grid services are required to ensure that new generation resources can be integrated effectively and the overall operation of the grid is as efficient as possible.

Interest in long duration energy storage is rising as the rapid growth of variable output renewables continues and issues with grid stability and efficiency become more tangible for grid operators. Long duration energy storage is expected to be increasingly necessary for an electricity system to transition from a primary reliance on conventional fossil fuel generation to a grid dominated by variable renewable generation such as solar and wind. This type of storage provides the necessary flexibility to manage dynamic resources effectively. Demand for long duration storage will continue to increase around the world as prices continue to decline and more ambitious targets for greenhouse gas reduction are implemented.

This Navigant Research report explores the market drivers, barriers, and overall trends for long duration energy storage to highlight varying regional activities and programs. Specific technologies covered in the forecasts for this report include flow, molten salt, Li-ion, and other advanced batteries, compressed air energy storage (CAES), pumped storage, and power-to-gas. Global market forecasts, segmented by region, technology, application, and duration, extend through 2027. The report also examines the key technologies related to long duration energy storage, as well as the competitive landscape.

Key Questions Addressed

  • What is driving demand for long duration energy storage?
  • What applications and grid services will long duration storage provide?
  • What is holding back the adoption of long duration energy storage?
  • Which technologies are suited for which long duration applications?
  • Which long duration technologies will be the most widely deployed over the coming 10 years?
  • What are the advantages and disadvantages of each long duration energy storage technology?
  • Which companies are the leading developers of long duration energy storage?

Who Needs This Report

  • Energy storage hardware vendors and technology firms
  • Energy storage developers and independent power producers
  • Engineering, procurement, and construction (EPC) firms
  • Renewable energy development financing companies
  • Smart grid controls and software companies
  • Inverter and other balance-of-system vendors
  • Government and regulatory agencies
  • Utilities
  • Investor community

Table of Contents

1. Executive Summary

  • 1.1 Market Introduction
  • 1.2 Market Forecasts

2. Market Issues

  • 2.1 Applications for Long Duration Storage
    • 2.1.1 Renewable Energy Shifting
    • 2.1.2 T&D Asset Optimization
    • 2.1.3 Reserve Capacity
    • 2.1.4 Resiliency and Microgrids
  • 2.2 Market Drivers
    • 2.2.1 Renewable Energy Growth
      • 2.2.1.1 Generation Curtailment and T&D Congestion
      • 2.2.1.2 Grid Stability
      • 2.2.1.3 Islands
    • 2.2.2 Government Support
      • 2.2.2.1 US
      • 2.2.2.2 China
    • 2.2.3 Limitations of Competing Technologies
      • 2.2.3.1 Short Life Cycle
      • 2.2.3.2 Safety
  • 2.3 Market Barriers
    • 2.3.1 Geographic Restrictions
    • 2.3.2 Lack of Trust in New Technologies
    • 2.3.3 Low Round-Trip Efficiency
    • 2.3.4 Pricing
  • 2.4 Key Technologies
    • 2.4.1 Compressed Air
      • 2.4.1.1 Unsuccessful CAES Attempts
      • 2.4.1.2 Hydrostor A-CAES Technology
    • 2.4.2 Flow Batteries
      • 2.4.2.1 Flow Vendor Challenges and Innovations
    • 2.4.3 Hybrid Energy Storage Systems
    • 2.4.4 Liquid Air
    • 2.4.5 Molten Salt Batteries
    • 2.4.6 Other Advanced Batteries
    • 2.4.7 Power-to-Gas
      • 2.4.7.1 ITM Power Developments
      • 2.4.7.2 P2G Storage in Australia
    • 2.4.8 Pumped Hydro Storage
      • 2.4.8.1 Pros and Cons of PHS
    • 2.4.9 Thermal

3. Key Industry Players

  • 3.1 Introduction
  • 3.2 CellCube Energy Storage
  • 3.3 ESS Inc.
  • 3.4 Highview Power
  • 3.5 Hydrostor
  • 3.6 ITM Power
  • 3.7 Lockheed Martin Energy
  • 3.8 redT
  • 3.9 UniEnergy Technologies
  • 3.10 Vionx Energy
  • 3.11 Other Industry Participants

4. Market Forecasts

  • 4.1 Methodology and Assumptions
  • 4.2 Forecasts by Technology
  • 4.3 Forecasts by Application
  • 4.4 Forecasts by Duration
  • 4.5 Conclusions and Recommendations

5. Acronym and Abbreviation List

6. Table of Contents

7. Table of Charts and Figures

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