Cover Image
市場調查報告書

超級電容器相關採訪、策略、藍圖

Supercapacitor / Ultracapacitor Interviews, Strategies, Road Map 2015-2025 - Electrochemical Double Layer Capacitors & Supercabatteries AEDLC: User & technology supplier interviews.

出版商 IDTechEx Ltd. 商品編碼 292024
出版日期 內容資訊 英文 220 Pages
商品交期: 最快1-2個工作天內
價格
Back to Top
超級電容器相關採訪、策略、藍圖 Supercapacitor / Ultracapacitor Interviews, Strategies, Road Map 2015-2025 - Electrochemical Double Layer Capacitors & Supercabatteries AEDLC: User & technology supplier interviews.
出版日期: 2016年03月01日 內容資訊: 英文 220 Pages
簡介

傳統上,充電式電池被當作能量密度產品使用,使用了電容器的其他設備當作功率密度產品使用。2023年預計將有更高功率密度的充電式電池投入市場。可是,這個功率密度高的充電式電池,犧牲了多能量密度。因此,為了彌補這個,預期將有更高能量密度的超級電容器投入市場。這個特性的整合,尤其是在電力應用中,導致兩者並進利用的組合擴大。電池和超級電容器的組合,接近理想的電池的性能。

本報告以超級電容器為主題,提供產品概要未來技術藍圖、現在概括及未來的用途、80家企業的採訪和各公司的策略,以及開發業者、材料供應商、學術機構的採訪彙整,及主要的企業簡介。

第1章 摘要整理、總論

  • 超級電容器和電池的整合
  • 各用途、領域的成功案例
  • 技術藍圖
  • 未來最重要的商業性的技術進步
  • 大部分追究區域改善
  • 更低的溫度
  • 價格及功能的課題
  • 增加電動車的移動距離的超級電容器
  • 汽車用超級電容器
  • 各種技術的產生
  • 實現不可能
  • 製造商和估計的製造商
  • 新加入廠商
  • 超級電容器和鋰離子電池現在是一個產業
  • 全球價值市場領導力的變化?
  • 超級電容器掌握數10億美元規模的電解電容市場
  • 今後的策略

第2章 簡介

第3章 所需的演進與受認可的演進

  • 汽車用超級電容器
  • 使超級電容器確實替換更多的電池

第4章 現在及未來的用途

  • 脈衝電源
  • 橋式電源
  • 主電源
  • 記憶體備用
  • 製造商的成功案例、策略:各用途
  • 增加電動車的移動距離的超級電容器

第5章 80家製造商的調查

第6章 實際成果、目標:各製造商

第7章 非商業性開發計劃範例

第8章 企業的採訪及各公司的超級電容器策略的說明

  • IDTechEx主辦的超級電容器活動(2014年11月,加利福尼亞)
    • 爭奪領導權
    • 結構
    • 小規模的超級電容器
  • 供應商的採訪
    • Cap-XX(澳洲)
    • Cellergy(以色列)
    • East Penn Manufacturing(美國)
    • Elton Super Capacitor(俄羅斯)
    • Inmatech(美國)
    • Ioxus(美國)
    • JS Micro/ JS Radio/JM Energy(日本)
    • Nanotune Technologies(美國)
    • NEC Tokin(日本)
    • Nesscap Energy Inc(加拿大/韓國)
    • Nichicon(日本)
    • Nippon ChemiCon/United ChemiCon(日本)
    • Skeleton Technologies (愛沙尼亞/德國)
    • Yo-Engineering(俄羅斯)
    • Yunasko(俄羅斯)
  • 用戶的採訪
    • Bombardier(加拿大)
    • Hydrogenics Corporation(美國)
    • 本田技研工業(日本)和Nippon ChemiCon(日本)
    • 小松製作所(日本)
  • New Supercapacitor Advances(2014年,日本)

第9章 開發業者、材料供應商、學術機構的採訪

  • DAIKIN INDUSTRIES(日本)
  • Hutchinson (TOTAL) (法國)
  • IFEVS(義大利)
  • 東北大學(美國)
  • NYSERDA
  • Tecate Group(美國)
  • Yuri Gogotski教授

第10章 企業簡介

  • Elbit Systems
  • Aowei Technology
  • Cap-XX
  • ELTON
  • Hutchinson SA
  • Cellergy
  • Ioxus
  • Maxwell Technologies Inc
  • Nesscap Energy
  • Paper Battery Company
  • Saft Batteries
  • Skeleton Technologies
  • WIMA Spezialvertrieb elektronischer Bauelemente
  • Yunasko

附錄1:超級電容器的ABB BUS的閃電充電

附錄2:IDTECHEX的出版物和諮詢

圖表

本網頁內容可能與最新版本有所差異。詳細情況請與我們聯繫。

目錄

Traditionally, rechargeable batteries have been used as energy dense products and the other devices based on capacitors have been used as power dense products. There are more-power-dense versions of the favourite rechargeable batteries - lithium-ion with 70% or so of the rechargeable battery market in 2023. Unfortunately, power dense rechargeable batteries surrender a lot of energy density. It is therefore helpful that more and more energy dense supercapacitors and variants are becoming available, some even matching lead acid batteries and yet retaining excellent power density. This convergence of properties has led to the widespread combination of the two in parallel, particularly in power applications. Battery/supercapacitor combinations approach the performance of an ideal battery - something that can never be achieved with a battery alone because its chemical reactions cause movement, swelling and eventually irreversability. In some cases, things have gone further. For example, hybrid buses using supercapacitors now rarely use them across the traction battery - the supercapacitor replaces the battery, the only battery remaining in the vehicle being a small lead-acid starter battery.

image1

Many more supercapacitor variants are now available. There is now almost a continuum of devices between conventional electrolytic capacitors and rechargeable batteries as we explain in the report. The analysis of 80 manufacturers and putative manufacturers reveals, for example, how battery manufacturers and conventional capacitor manufacturers are entering the business of devices intermediate between the two. However, rather surprisingly, most of the intermediate devices are developed and manufactured by companies not in either conventional capacitors or batteries. Although we use the term intermediate devices, some have some properties superior to both conventional capacitors and rechargeable batteries.

Analyst access from IDTechEx

All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

Table of Contents

1. EXECUTIVE SUMMARY AND CONCLUSIONS

  • 1.1. Supercapacitors and batteries converge
    • 1.1.1. Supercapacitors and Li-ion Batteries are one business
  • 1.2. Success by application and territory
  • 1.3. Technology road map 2015-2024
  • 1.4. The most important future technical advances commercially
  • 1.5. Most are chasing area improvement
  • 1.6. Even lower temperature
  • 1.7. Price and functional issues
  • 1.8. Supercapacitors increase range of electric vehicles
  • 1.9. Supercapacitors in vehicles
    • 1.9.1. Conventional vehicles
    • 1.9.2. Electric vehicles
  • 1.10. Incidence of the different technologies
    • 1.10.1. Incidence of manufacturers by operating principle
    • 1.10.2. Incidence of current collector and active electrode types
    • 1.10.3. Electrolytes
  • 1.11. Achieving the impossible
  • 1.12. Manufacturers and putative manufacturers
  • 1.13. New entrants
  • 1.14. Supercapacitors and lithium-ion batteries are now one business
  • 1.15. Change of leadership of the global value market?
  • 1.16. Supercapacitors grab the multibillion dollar electrolytic capacitor market
  • 1.17. Planned strategies for 2015-2025

2. INTRODUCTION

3. ADVANCES REQUIRED AND PROGRESS IDENTIFIED

  • 3.1. Supercapacitors in vehicles
  • 3.2. Ensuring that supercapacitors will replace more batteries

4. APPLICATIONS NOW AND IN THE FUTURE

  • 4.1. Pulse Power
  • 4.2. Bridge Power
  • 4.3. Main Power
  • 4.4. Memory Backup
    • 4.4.1. Evolution of commercially successful functions
    • 4.4.2. Composite structural and smart skin supercapacitors for power storage
  • 4.5. Manufacturer successes and strategies by application
  • 4.6. Supercapacitors increase range of electric vehicles

5. SURVEY OF 80 MANUFACTURERS

6. ACHIEVEMENTS AND OBJECTIVES BY MANUFACTURER

7. EXAMPLES OF PRE-COMMERCIAL DEVELOPMENT PROGRAMS

8. INTERVIEWS AND COMMENTARY ON COMPANY STRATEGY FOR SUPERCAPACITORS

  • 8.1. Lessons from the IDTechEx Supercapacitors event California November 2014
    • 8.1.1. Jostling for Leadership
    • 8.1.2. Supercapacitors: What Construction?
    • 8.1.3. Supercapacitors on the smaller scale
  • 8.2. Interviews with suppliers
    • 8.2.1. Cap-XX Australia
    • 8.2.2. Cellergy Israel
    • 8.2.3. East Penn Manufacturing USA
    • 8.2.4. Elton Super Capacitor Russian Federation
    • 8.2.5. Furukawa Battery Co Ltd. Japan
    • 8.2.6. Inmatech USA
    • 8.2.7. Ioxus USA
    • 8.2.8. JS Micro/ JS Radio/JM Energy Japan
    • 8.2.9. Nanotune Technologies USA
    • 8.2.10. NEC Tokin Japan
    • 8.2.11. Nesscap Energy Inc Canada/Korea
    • 8.2.12. Nichicon Japan
    • 8.2.13. Nippon ChemiCon/ United ChemiCon Japan
    • 8.2.14. Skeleton Technologies Estonia, Germany
    • 8.2.15. Yo-Engineering Russian Federation
    • 8.2.16. Yunasko Russian Federation
  • 8.3. User interviews and inputs
    • 8.3.1. Bombardier Canada
    • 8.3.2. Hydrogenics Corporation USA
    • 8.3.3. Honda Japan and Nippon Chemi-Con Japan
    • 8.3.4. Komatsu Japan
  • 8.4. New Supercapacitor Advances in Japan Oct 2014

9. DEVELOPER, MATERIALS SUPPLIER AND ACADEMIC INPUTS

  • 9.1. Daikin Industries Japan
  • 9.2. Hutchinson (TOTAL) France
  • 9.3. IFEVS Italy
  • 9.4. Northeastern University USA
  • 9.5. NYSERDA grants reveal trends of research
  • 9.6. Tecate Group USA
  • 9.7. Yuri Gogotski

10. COMPANY PROFILES

  • 10.1. Elbit Systems
  • 10.1. Aowei Technology
  • 10.2. Cap-XX
  • 10.2. ELTON
  • 10.3. Hutchinson SA
  • 10.3. Cellergy
  • 10.4. Ioxus
  • 10.5. Maxwell Technologies Inc
  • 10.6. Nesscap Energy
  • 10.7. Paper Battery Company
  • 10.8. Saft Batteries
  • 10.9. Skeleton Technologies
  • 10.10. WIMA Spezialvertrieb elektronischer Bauelemente
  • 10.11. Yunasko

APPENDIX 1: SUPERCAPACITOR FLASH CHARGING OF ABB BUS

APPENDIX 2: IDTECHEX RESEARCH REPORTS AND CONSULTANCY

TABLES

  • 1.1. Main achievements and objectives with supercapacitors and their derivatives by number of manufacturers and putative manufacturers involved
  • 1.2. 2014 output value forecast by manufacturer of supercapacitors and supercabatteries.
  • 1.3. Supercapacitor technology roadmap including lithium-ion capacitors (AEDLC) 2013-2024
  • 1.4. The ten advances that will create the largest add-on markets for supercapacitors and their derivatives in order of importance in creating market value with examples of organisations leading the advance
  • 1.5. 15 examples of component displacement by supercapacitors in 2012-3
  • 1.6. Supercapacitor functions reaching major market acceptance 2013-2023 with some of the companies leading the success by sector
  • 1.7. 80 manufacturers, putative manufacturers and commercial companies developing supercapacitors, supercabatteries and carbon-enhanced lead batteries for commercialisation with country, website and device technology.
  • 2.2. Some of the pros and cons of supercapacitors
  • 3.1. Advances that will create the largest add-on markets for supercapacitors and their derivatives by value in order of importance with examples of organisations leading the advance.
  • 3.2. Examples of component displacement by supercapacitors.
  • 4.1. Supercapacitor functions reaching major market acceptance 2013-2023 with some of the companies leading the success by sector
  • 5.1. 80 manufacturers, putative manufacturers and commercial companies developing supercapacitors, supercabatteries and carbon-enhanced lead batteries for commercialisation with country, website and device technology.
  • 6.1. By application, for Automotive, Aerospace, Military and Oil & Gas, the successes by 78 supercapacitor/supercabattery manufacturers in grey green and their targets for extra applications in the near term in yellow. Six sub categori
  • 6.2. The successes in six categories in the Utility sector by 78 supercapacitor/supercabattery manufacturers in grey green and their targets for extra applications in the near term in yellow
  • 6.3. The successes by 78 supercapacitor/supercabattery manufacturers in the Consumer and Industrial & Commercial beyond vehicles sectors in grey green and their targets for extra applications in the near term in yellow. Eight sub-categ
  • 7.1. Pre-commercial supercapacitor developers with their country, website, industrial partner, applications targeted

FIGURES

  • 1.1. Some of the options and some of the suppliers in the spectrum between conventional capacitors and rechargeable batteries with primary markets shown in yellow
  • 1.2. Examination of achievement and strategy in the most important applicational sectors. Number of manufacturers of supercapacitors and their variants that have that have supplied given sectors vs number that target them for future ex
  • 1.3. Probable timeline for market adoption by sector and technical achievements driving the growth of the market for supercapacitors and their derivatives 2014-2025 with market value projections for supercapacitors, cost and performanc
  • 1.4. Some of the main ways in which greater supercapacitor energy density is being sought by the route of increasing useful carbon area per unit volume or weight
  • 1.5. The main functions that supercapacitors will perform over the coming decade
  • 1.6. Examples of the main functions performed by supercapacitors
  • 1.7. Main functions performed by supercapacitors in electric vehicles
  • 1.8. The evolution from conventional to various types of electric vehicle related to supercapacitor applications in them today, where hybrids and pure electric versions are a primary target
  • 1.9. Possible timeframe and technology for reaching the tipping point for sales of pure electric on-road cars
  • 1.10. The number of manufacturers and putative manufacturers of supercapacitors/supercabatteries by six sub-categories of technology
  • 1.11. Incidence of manufacturers of various types of supercapacitor and variant by operating principle
  • 1.12. Component displacement mapped as a function of benefits relative to batteries conferred by supercapacitors
  • 1.13. Estimate of the number of trading manufacturers of supercapacitors and supercabatteries globally 1993-2025 including timing of industry shakeout.
  • 2.1. Types of capacitor
  • 2.2. Symmetric supercapacitor EDLC left compared with asymmetric AEDLC ie supercabattery with battery-like cathode (ie part electrochemical in action) shown right. During charge and discharge, the voltage is nearly constant resulting i
  • 2.3. Symmetric supercapacitor EDLC compared with asymmetric AEDLC ie supercabattery with lithiated carbon anode (ie entirely electrostatic in action) shown right
  • 2.4. Eight families of option and some of the suppliers in the spectrum between conventional capacitors and rechargeable batteries with primary markets shown in yellow
  • 3.1. The main functions that supercapacitors will perform over the coming decade
  • 3.2. Examples of the main functions performed by supercapacitors. Those in black are currently only achieved with a flammable, carcinogenic electrolyte - acrylonitrile - but this will change
  • 3.3. The evolution from conventional to various types of electric vehicle related to supercapacitor applications in them today, where hybrids and pure electric versions are a primary target.
  • 3.4. Possible timeframe and technology for reaching the tipping point for sales of pure electric on-road cars
  • 3.5. Component displacement mapped as a function of benefits relative to batteries conferred by supercapacitors
  • 3.6. Siemens view in 2012 of the elements of Electrical Bus Rapid Transit eBRT, for example, mentioning U-Caps meaning supercapacitors
  • 4.1. Examples of applications of the ULTIMO Cell
  • 4.2. Structural supercapacitor as flexible film.
  • 4.3. Primary demand for energy storage for battery-like products in Europe in 2020, which will be satisfied by batteries, supercapacitors, intermediate products and combinations of these
  • 4.4. East Penn Deca Ultra Battery in Honda hybrid car
  • 4.5. Heter Electronics supercapacitors from China
  • 5.1. Incidence of the different technologies
  • 5.2. Number of manufacturers offering the various supercapacitor technologies including derivatives, some companies having several options
  • 5.3. Estimate of the number of trading manufacturers of supercapacitors and supercabatteries globally 1993-2025 including timing of industry shakeout.
  • 8.1. Supercapacitor focus for small wearable healthcare devices
  • 8.2. UltrabatteryTM for medium hybrid vehicles
  • 8.3. Inmatech Innovations
  • 8.4. Supercapacitor market and Inmatech
  • 8.5. Nichicon supercapacitor emphasis at EVS26 Los Angeles 2012
  • 8.6. Supercapacitor-based electric vehicle fast charging stations launched in 2012 by Nichicon.
  • 8.7. Mazda car supercapacitor exhibited at EVS26 Los Angeles 2012
  • 8.8. Nippon Chemi-Con low resistance DXE Series priority shown in 2012
  • 8.9. Exhibit by United ChemiCon at EVS26 Los Angeles
  • 9.1. Daikin Industries display on fluorination of supercapacitor electrolytes
  • 9.2. Extracts from Hutchinson presentation at eCarTec Munich October 2012
Back to Top