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세계의 EV 충전용 에너지 저장(ESEVC) 시장 분석과 예측 : 첨단 배터리 대응 개인용 및 상용 EV 충전기

Energy Storage for EV Charging - Advanced Battery-Enabled EV Chargers for Residential and Commercial Markets: Global Market Analysis and Forecasts

리서치사 Navigant Research
발행일 2018년 06월 상품 코드 657568
페이지 정보 영문 39 Pages; 24 Tables, Charts & Figures
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US $ 3,800 ₩ 4,329,700 PDF & Excel by E-mail (Basic License)
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세계의 EV 충전용 에너지 저장(ESEVC) 시장 분석과 예측 : 첨단 배터리 대응 개인용 및 상용 EV 충전기 Energy Storage for EV Charging - Advanced Battery-Enabled EV Chargers for Residential and Commercial Markets: Global Market Analysis and Forecasts
발행일 : 2018년 06월 페이지 정보 : 영문 39 Pages; 24 Tables, Charts & Figures

전기자동차 충전용 에너지 저장(ESEVC : Energy Storage for EV Charging) 기술 및 시장에 대해 조사했으며, 시장 및 기술 정의와 개요, 주요 기업의 제품과 사업 추진, ESEVC 시스템 개요, 에너지 저장 기술 옵션, ESEVC의 실현 기술, 각종 부문별 에너지 저장 용량 및 매출 추정과 예측, 향후 전망, 각종 제안 등의 정보를 전해드립니다.

제1장 주요 요약

제2장 시장 분석

  • 서론 : EV 충전과 에너지 저장
  • EV 충전 시장
    • 기술 및 출력 레벨
      • AC 충전
      • 무선 충전
      • DC 충전
  • EV 충전용 에너지 저장
  • 시장 전개
    • 미국 : ChargePoint와 Green Charge Networks
    • 영국 : Renault와 Connected Energy 2차 이용 배터리
    • 유럽 : Leclanche와 Fastned의 급속 충전소
    • Tesla의 슈퍼차저 스테이션

제3장 기술 분석

  • ESEVC 시스템의 특징
    • 아키텍처
    • 프로파일 및 스케줄링에 관한 고려사항
    • 개인용 ESEVC : 성장 촉진요인
    • 상용 ESEVC : 성장 촉진요인
    • 유틸리티에 대한 영향
  • 에너지 저장 기술 옵션
    • 리튬이온 배터리
    • 플로우 배터리
    • 플라이휠
  • ESEVC 실현 기술
    • 전력 변환 시스템
    • 소프트웨어 및 제어계
    • 시스템 통합 서비스
  • 기타 기술
    • PV 대응 EV 충전기
    • 배터리 교환

제4장 시장 예측

  • 서론
  • 예측 방법
  • 에너지 저장 용량 : 지역별
  • 에너지 저장 용량 : 로케이션별
  • 에너지 저장 용량 : 출력 레벨별
  • 에너지 저장 용량 : 기술별
  • 가격 분석
  • 결론과 제안

제5장 두문자어와 약어

제6장 목차

제7장 도표

제8장 조사 범위, 정보 출처, 조사 방법, 주석

KSM 18.07.09

List of Charts and Figures

  • Energy Storage for EV Charging Power Capacity and Revenue by Region, World Markets: 2018-2027
  • Energy Storage Power Capacity and Revenue by Charger Location, World Markets: 2018-2027
  • Energy Storage Power Capacity and Revenue by Charger Power Level, World Markets: 2018-2027
  • Energy Storage for EV Charging Power Capacity and Revenue by Technology, World Markets: 2018-2027
  • Energy Storage for EV Charging Installed Cost (CAPEX) by Technology, Global Averages: 2018-2027
  • ESEVC Demand Charge Savings
  • ESEVC Architecture Examples
  • ESEVC Architecture: Grid Integrated Battery
  • ESEVC Architecture: Charger Integrated Battery
  • ESEVC Architecture: Solar PV-Enabled Battery

List of Tables

  • Light Duty PEV Sales by Region, World Markets: 2018-2027
  • Medium and Heavy Duty PEV Sales by Region, World Markets: 2018-2027
  • Installed Charging Ports by Region, World Markets: 2018-2027
  • EV Charger Sales by Region, World Markets: 2018-2027
  • Energy Storage for EV Charging Power Capacity by Region, World Markets: 2018-2027
  • Energy Storage for EV Charging Revenue by Region, World Markets: 2018-2027
  • Energy Storage for EV Charging Power Capacity by Charger Location, World Markets: 2018-2027
  • Energy Storage for EV Charging Power Capacity by Charger Location, World Markets: 2018-2027
  • Energy Storage for EV Charging Power Capacity by Charger Power Level, World Markets: 2018-2027
  • Energy Storage for EV Charging Revenue by Charger Power Level, World Markets: 2018-2027
  • Energy Storage for EV Charging Power Capacity by Technology, World Markets: 2018-2027
  • Energy Storage for EV Charging by Technology, World Markets: 2018-2027
  • Energy Storage for EV Charging Installed Cost (CAPEX) by Technology, Global Averages: 2018-2027
  • EV Charging Summary

Energy storage has become a key enabling technology for front-of-the-meter and behind-the-meter applications. Grid operators, commercial business owners, and homeowners are increasingly looking to storage to help mitigate electricity reliability and cost issues. EVs and their charging systems represent one of the problems that many customers face. EV charging introduces power supply issues in the form of harmonic currents and poor power factors because of non-linear charging equipment. These issues affect the quality of power being supplied to the EV battery, thus reducing its useable life.

Since EV chargers are an electric load that can potentially create large spikes in demand, EV charging station hosts are pressured to do something about their impact on the grid. Several different solutions will address the peak demand of EVs and the associated charging issues. One solution is to implement EV charging strategies that contain the impact on the grid, thereby guaranteeing the quality of the service. The implementation of a charging strategy is related to the deployment of smart grid technologies-especially energy storage. Energy storage plays a fundamental role in the integration of the new power systems related to EV charging stations. Energy storage for EV charging (ESEVC) provides many benefits to the greater EV charging market, including reduced demand charges and improved grid stability.

This Navigant Research report examines the EV charging market, how energy storage can play a vital role, and key technology considerations that will drive this industry forward. The study analyzes the market issues, including market segmentation and the supply chain, associated with energy storage-enabled EV chargers. Global market forecasts, segmented by charger location, charger power level, technology, and region, extend through 2027. The report also examines the architectures related to ESEVC, as well as how EV charging companies are teaming up with energy storage developers to learn how to integrate and monetize energy storage systems.

Key Questions Addressed:

  • What are the key market drivers and challenges for energy storage-enabled EV chargers?
  • How will the integration of advanced batteries and energy storage affect the operational characteristics of an EV charger?
  • What types of energy storage technologies are currently being utilized in EV chargers?
  • Where are energy storage for EV charging (ESEVC) systems gaining the most traction?
  • How will energy storage-enabled EV chargers affect utilities, commercial and industrial (C&I) customers, and residential customers?
  • What should government, manufacturers, and integrators do to ensure the continued success of these technologies?

Who needs this report?

  • Advanced battery manufacturers and vendors
  • Stationary energy storage customers
  • Energy storage technology vendors
  • EV charging companies
  • EV OEMs
  • Energy storage software providers
  • Electric utilities
  • Investor community

Table of Contents

1. Executive Summary

  • 1.1 Introduction
  • 1.2 Report Scope
  • 1.3 Market Forecasts

2. Market Issues

  • 2.1 Introduction: EV Charging and Energy Storage
  • 2.2 EV Charging Market
    • 2.2.1 Market Segmentation
    • 2.2.2 Technologies and Power Levels
      • 2.2.2.1 AC Charging
      • 2.2.2.2 Wireless Charging
      • 2.2.2.3 DC Charging
  • 2.3 Energy Storage for EV Charging
  • 2.4 Market Activity
    • 2.4.1 US: ChargePoint and Green Charge Networks
    • 2.4.2 UK: Renault and Connected Energy Second-Life EV Batterie
    • 2.4.3 Europe: Leclanché and Fastned Fast Charging Station
    • 2.4.4 Tesla Supercharger Stations

3. Technology Issues

  • 3.1 ESEVC System Features
    • 3.1.1 ESEVC System Architecture
    • 3.1.2 ESEVC Profile and Scheduling Considerations
    • 3.1.3 ESEVC Residential Drivers
    • 3.1.4 ESEVC Commercial Drivers
    • 3.1.5 ESEVC Utility Implications
  • 3.2 Energy Storage Technology Options
    • 3.2.1 Li-Ion Batteries
    • 3.2.2 Flow Batteries
    • 3.2.3 Flywheels
  • 3.3 ESEVC Enabling Technologies
    • 3.3.1 Power Conversion Systems
    • 3.3.2 Software and Controls
    • 3.3.3 Systems Integrator Services
  • 3.4 Other EV Charging Technologies
    • 3.4.1 Solar PV-Enabled EV Chargers
    • 3.4.2 Battery Swapping

4. Market Forecasts

  • 4.1 Introduction
  • 4.2 Methodology
  • 4.3 ESEVC Power Capacity by Region
  • 4.4 ESEVC Power Capacity by Charger Location
  • 4.5 ESEVC Power Capacity by Charger Power Level
  • 4.6 ESEVC Power Capacity by Technology
  • 4.7 Technology Pricing
  • 4.8 Conclusions and Recommendations

5. Acronym and Abbreviation List

6. Table of Contents

7. Table of Charts and Figures

8. Scope of Study, Sources and Methodology, Notes

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