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熱電エネルギーハーベスティングの将来

Future of Thermoelectric Energy Harvesting

発行 Frost & Sullivan 商品コード 531671
出版日 ページ情報 英文 86 Pages
納期: 即日から翌営業日
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熱電エネルギーハーベスティングの将来 Future of Thermoelectric Energy Harvesting
出版日: 2017年07月03日 ページ情報: 英文 86 Pages
概要

熱電エネルギーハーベスティング技術は、熱電発電装置で構成され、ゼーベック効果に基づくエネルギーハーベスティング技術の一種です。

当レポートでは、世界の熱電エネルギーハーベスティング市場について調査分析し、市場の現状、開発・導入の影響要因、ホットスポット、特許・資金の動向、応用、市場の可能性、主要ニーズ、成長機会などについて、体系的な情報を提供しています。

第1章 エグゼクティブサマリー

第2章 技術状況のレビュー

  • 熱電エネルギーハーベスティングとは
  • 大きな影響は今後5〜7年後に
  • 大量生産は近い将来に
  • 材料科学の進歩が技術革新と機能改善を実現
  • 熱電・圧電エネルギーハーベスティング技術の比較評価
  • 熱電エネルギーハーベスティング技術の進歩が、最適な効率、信頼性、将来の着実な生産高につながる

第3章 導入に影響を与える要因の影響評価:促進要因と課題

  • バッテリーレスデバイスへの流れが高い潜在性に
  • 高い投資コスト、低い変換効率、材料の制約、意識の欠如が導入の妨げに
  • 熱電発電装置モジュールへの需要が増加する見通し
  • フレキシブルモジュールは導入に大きな影響を与える
  • 高い投資コストと低い変換効率が難題
  • 材料の制約と意識の欠如が導入の妨げ

第4章 技術革新エコシステム、地域のホットスポット、主要デベロッパー

  • 技術革新エコシステム
  • 米国の企業のプロファイル
  • デンマーク、スペインの企業のプロファイル
  • ドイツの企業のプロファイル
  • 米国の技術開発と導入動向
  • 欧州の技術開発と導入動向
  • アジア太平洋地域の技術開発と導入動向

第5章 特許と資金状況

  • 中国が熱電発電装置モジュールの開発で台頭
  • 4大資金分野が技術開発と導入を促進
  • 主な資金取引

第6章 応用情勢分析

  • 熱電発電装置モジュールの性能と適用性に対する3大決定基準
  • 自動車用
  • 工業用
  • BA用
  • CE用
  • 医療用
  • 軍事・航空宇宙用
  • 熱電発電装置モジュールの応用ロードマッピング
  • 熱動力の車両とスマートグリッドのコジェネレーション技術

第7章 市場の可能性:予測

  • 市場予測
  • 総合市場:応用別
  • 航空宇宙・防衛が主要分野
  • 市場概要:予測シナリオの前提条件
  • 熱電エネルギーハーベスティング市場:収益
  • WSNの普及
  • 市場の機会

第8章 顧客ニーズ分析

  • 価格
  • カスタマイズ
  • 完全なシステムの開発
  • メリット
  • 完成品のオンタイム納品
  • 意思決定分析

第9章 アナリストの見解

第10章 熱電エネルギーハーベスティングの成長機会に対するCEOの見通し

第11章 主要特許・連絡先

第12章 Frost & Sullivanについて

目次
Product Code: D6EB

Building and Home Automation Sectors will Drive Growth Opportunities for Thermal Harvesters

Increased population and pollution are largely contributing to energy crisis. In manufacturing and industrial power plants, a high amount of energy is wasted in the form of heat. Though some countries have restructured their electricity infrastructure with highly expensive processes, the electricity crisis still prevails. This energy and electricity crisis will be a threatening factor for social and economic growth. Energy harvesting is expected to play a major role in managing global energy demands and help in resolving related issues. Thermoelectric Energy Harvesting (THE) technology comprising thermoelectric generators (TEGs) is a type of energy harvesting technology which is based on Seebeck effect. This aims to leverage thermal sources to generate electrical power and is intended for large-scale and small-scale applications.

TEGs have the potential to impact many applications including:

  • Automotive-Collision avoidance, regenerative braking, powering auto components
  • Industrial-Gas pipelines, geothermal, smart grid cogeneration thermoelectric generators, solar thermal cogeneration
  • Consumer electronics-Thermal heat generation from electronic components such as smartphones
  • Home and building automation-Smart metering, security system, home entertainment
  • Military and aerospace-Military avionics, space telescope cameras, missile testing systems
  • Healthcare-Wearable and implantable brain-computer interfaces (BCIs)

The technology and innovation report answers the following questions:

  • 1. What is the current status of THE market?
  • 2. What are the factors that influence development and adoption?
  • 3. What are the innovation hotspots and who are the key developers?
  • 4. What are the patent and funding trends and how does it support development?
  • 5. What are the applications enabled by THE?
  • 6. What is the market potential for THE (forecast until 2025)?
  • 7. What are the key needs that drive customer satisfaction?
  • 8. Where do we see growth opportunities?
  • 9. What are the key questions for planning strategic initiatives to drive adoption?

Table of Contents

1. EXECUTIVE SUMMARY

  • 1.1 Research Scope
  • 1.2 Key Questions Answered in the Report
  • 1.3 Research Methodology
  • 1.4 Research Methodology Explained
  • 1.5 Key Findings - Technology and Application Impact, Funding Scenario
  • 1.6 Key Findings - Patent Activity, Global Footprint, and Convergence Potential

2. TECHNOLOGY STATUS REVIEW

  • 2.1 Thermoelectric EH - A Sneak Preview
  • 2.2 Significant Impact is Expected in the Next 5 to 7 Years
  • 2.3 Mass-scale Manufacturing will Drive Adoption in the Near Future
  • 2.4 Material Science Advancement Enabling Innovation and Functional Improvements
  • 2.5 Comparative Assessment of Thermoelectric and Piezoelectric Energy Harvesting Technologies
  • 2.6 Advancements in THE Technology will lead to Better Efficiency, Reliability, and Robustness Output in the Future

3. IMPACT ASSESSMENT OF FACTORS INFLUENCING ADOPTION - DRIVERS AND CHALLENGES

  • 3.1 Increasing Trend towards Battery-less Devices Leads to High Potential for Adoption
  • 3.2 High Investment Cost, Low Conversion Efficiency, Material Restrictions, and Lack of Awareness Restrict Wider Adoption
  • 3.3 Demand for TEG Modules Expected to Increase in the Future
  • 3.4 Flexible Modules are Expected to High Influence on Increased Adoption
  • 3.5 High Investment Cost and Low Conversion Efficiency are Key Drawbacks Impacting Adoption
  • 3.6 Material Restrictions and Lack of Awareness Restrict Widescale Adoption

4. INNOVATION ECOSYSTEM, HOTSPOTS BY REGION, AND KEY DEVELOPERS

  • 4.1 Innovation Ecosystem-Technology Developers across the Globe
  • 4.2 Profiles of Companies in USA - Hi-Z Technology, Nimbus Materials, and Evident Thermoelectrics
  • 4.3 Profiles of Companies in USA - Perpetua Power Source Technologies
  • 4.4 Profiles of Companies in Denmark and Spain - TEGnology APS and NABLA Thermoelectrics
  • 4.5 Profiles of Companies in Germany - EnOcean, TEC Microsystems, Otego
  • 4.6 Technology Development and Adoption Trend in USA
  • 4.7 Technology Development and Adoption Trend in Europe
  • 4.8 Technology Development and Adoption Trend in Asia Pacific

5. PATENT AND FUNDING STATUS

  • 5.1 China Emerges as a Hotspot for Developments in TEG Modules with Research Institutes and Start-ups, Bolstering the Patent Portfolio
  • 5.2 Four Key Funding Areas Driving Technology Development and Adoption
  • 5.3 Key Funding Deals - Initiatives Geared Towards Developing High Efficiency Converters, Expanding Production Capabilities

6. APPLICATION LANDSCAPE ANALYSIS

  • 6.1 Three Key Criteria Determining the Performance and Applicability of TEG Modules
  • 6.2 THE in Automotive Applications
  • 6.3 THE in Industrial Applications - WSN will Enhance Adoption
  • 6.4 THE in Building Automation Applications
  • 6.5 THE in Consumer Electronics Applications
  • 6.6 THE in Healthcare Applications
  • 6.7 THE in Military and Aerospace Applications
  • 6.8 Application Roadmapping of TEG Modules and Year of Impact
  • 6.9 Thermally Powered Vehicles and Smart Grid Cogeneration Techniques are Expected After 2025+

7. MARKET POTENTIAL - FORECAST TILL 2025

  • 7.1 THE Market Forecast, 2015-2025: Home Automation, Automotive, Industrial, Aerospace and Defense Markets Drive Growth Opportunities
  • 7.2 Total Thermoelectric Energy Harvesting Market by Application, Forecast 2015 - 2025
  • 7.3 Aerospace and Defense will be a Prime Focus Area for Thermoelectric Energy Harvesting Market
  • 7.4 Market Overview-Forecast Scenario Assumptions to 2020
  • 7.5 Thermoelectric Energy Harvesting Market: Revenue by Application, Global, 2014-2022
  • 7.6 Proliferation of WSNs will Boost Market Opportunities
  • 7.7 Market Opportunities

8. CUSTOMER NEED ANALYSIS

  • 8.1 Pricing is the Key Criteria for Widening Adoption
  • 8.2 Customization is Key to Win Customer Satisfaction
  • 8.3 Developing a Completed System can Increase ROI
  • 8.4 Benefits of Servicing and Replacement TEG Devices
  • 8.5 On-time Delivery of the Finished Goods will Increase Sales and Brand Loyalty among Customers
  • 8.6 Decision Making Analysis for Providing Value-Added Solutions

9. ANALYST POINT OF VIEW

  • 9.1 Growth Opportunities-Self-powered Consumer Products Through TEG
  • 9.2 Green Energy and Battery-less Power Generation are Garnering Interest for Thermoelectric Energy Harvesting

10. KEY QUESTIONS FROM THE CEO'S PERSPECTIVE ON THERMOELECTRIC ENERGY HARVESTING GROWTH OPPORTUNITIES

  • 10.1 What Are The Applications That Can Benefit From THE?
  • 10.2 Why should I invest in thermoelectric rather than piezoelectric type of energy harvesting?
  • 10.3 What are the main key drivers for adopting thermal energy harvesting?
  • 10.4 Which application will have high impact and market growth in the future?

11. KEY PATENTS AND CONTACTS

  • 11.1 Key Patents - Flexible Thermoelectric Module and Methods for Energy Harvesting
  • 11.2 Key Patents - Thermoelectric Fabric-based Energy Harvesting and Thermoelectric Pixels for Temperature Sensing
  • 11.3 Key Patents - Power Converter and Autonomous-based Thermoelectric Energy Harvesting
  • 11.4 Key Patents - Micromachined Thermoelectric Energy Harvesting
  • 11.5 Industry Contacts
  • Legal Disclaimer

12. THE FROST & SULLIVAN STORY

  • 12.1 The Frost & Sullivan Story
  • 12.2 Value Proposition: Future of Your Company & Career
  • 12.3 Global Perspective
  • 12.4 Industry Convergence
  • 12.5 360° Research Perspective
  • 12.6 Implementation Excellence
  • 12.7 Our Blue Ocean Strategy
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