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市場調查報告書

影響低碳製造 (LCM) 的技術趨勢

Technology Trends Impacting Low Carbon Manufacturing

出版商 Technical Insights (Frost & Sullivan) 商品編碼 334691
出版日期 內容資訊 英文 66 Pages
商品交期: 最快1-2個工作天內
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影響低碳製造 (LCM) 的技術趨勢 Technology Trends Impacting Low Carbon Manufacturing
出版日期: 2015年06月29日 內容資訊: 英文 66 Pages
簡介

本報告提供低碳製造 (LCM) 、即以製造業中的削減二氧化碳排放量的製造技術 (再生能源、二氧化碳回收儲存、各種節能技術等) 為焦點,提供為實現的各種技術開發與普及情形,和尤其是汽車產業上的活用狀況、技術開發、引進的推動因素和應該克服的課題、各種產業的目前的最佳業務實踐、今後的LCM技術開發的可行性、方向性等相關調查與考察。

能象

第1章 目錄

第2章 摘要整理

  • 分析範圍
  • 分析方法
  • 主要結果

第3章 圍繞產業的形勢

  • 低碳製造 (LCM):概要
  • 能源消費量方案
  • 成長推動因素及產業上的課題
  • 資金籌措方案的評估與趨勢

第4章 影響LCM,在宏觀層面的產業趨勢的評估

  • 宏觀層面趨勢的概要
  • 再生能源技術:水力、風力發電
  • 再生能源技術:太陽能
  • 再生能源技術:生質能源
  • LCM節能技術
  • 節能、LCM技術的影響度:紙、紙漿產業的情況
  • 節能、LCM技術的影響度:水泥產業的情況
  • 節能、LCM技術的影響度:鋼鐵業的情況
  • 實現LCM的廢棄物管理:概要
  • 廢棄物管理的影響度:厭氧消化技術
  • 二氧化碳回收儲存技術:概要
  • 二氧化碳回收儲存技術:技術環境
  • 二氧化碳回收儲存技術:對各產業的影響度

第5章 在汽車產業中促進LCM的技術創新的評估

  • 汽車產業上LCM的重要性
  • 再生能源技術:重要性與趨勢
  • 廢棄物管理:重要性與趨勢
  • 節能:重要性與趨勢
  • 節能:最佳業務實踐的評估

第6章 汽車產業上LCM技術創新的生態系統

  • 再生能源:創新者 (技術開發企業) 簡介
  • 廢棄物管理:創新者簡介
  • 節能:創新者簡介

第7章 最佳業務實踐與策略性展望

  • LCM技術的引進相關,全球各地的最佳業務實踐:概要
  • 技術性影響架構:指標
  • 技術性影響架構
  • 短期性的引進策略
  • LCM太陽能技術相關課題和差距
  • LCM水力、風力發電技術相關課題和差距
  • LCM生質能源技術相關課題和差距
  • LCM二氧化碳回收儲存技術相關課題和差距
  • 開發中國家的LCM的市場機會
  • 發展中國家的LCM引進相關課題
  • 策略性展望

第8章 附錄

  • 技術性影響度分析
  • 法律上的免責聲明

第9章 關於FROST & SULLIVAN

目錄
Product Code: D67E-01-00-00-00

Sustainable manufacturing technologies to reduce carbon footprint

This research service delves into various technology trends and innovations being employed in the manufacturing sector for creating a low carbon economy and particularly focuses in the automobile industry. Renewable energy technologies such as solar energy, wind energy, hydro power and bioenergy are popular choices for migrating from conventional energy technologies to low carbon or perhaps zero carbon emitting technologies. Adoption of these energy sources and associated technologies among various industries are discussed in the research service. Energy efficient technologies and energy efficient best practices are key technologies for saving energy in industries, with a direct impact on the industrial carbon footprint.

Table of Contents

1. CONTENTS

2. EXECUTIVE SUMMARY

  • 1. Research Scope
  • 2. Research Methodology
  • 3. Research Methodology (continued)
  • 4. Key Findings

3. INDUSTRY LANDSCAPE

  • 1. Low Carbon Manufacturing - An Overview
  • 2. Energy Consumption Scenario
  • 3. Growth Drivers and Industry Challenges
  • 4. Assessment of Funding Scenario & Trends

4. ASSESSMENT OF MACRO-LEVEL INDUSTRY TRENDS INFLUENCING LCM

  • 1. Snapshot of Macro-Level Trends
  • 2. Renewable Energy Technologies - Hydro and Wind Energy
  • 3. Renewable Energy Technologies - Solar Energy
  • 4. Renewable Energy Technologies - Bioenergy
  • 5. Energy-Efficient Technologies for LCM
  • 6. Impact of Energy-Efficient LCM Technologies for Paper & Pulp Industry
  • 7. Impact of Energy-Efficient LCM Technologies for Cement Industry
  • 8. Impact of Energy-Efficient LCM Technologies for Iron & Steel Industry
  • 9. Impact of Energy-Efficient LCM Technologies for Iron & Steel Industry (continued)
  • 10. Waste Management Enabling LCM - An Overview
  • 11. Impact of Waste Management - Anaerobic Digestion Technology
  • 12. Carbon Capture and Storage Technology - An Overview
  • 13. Carbon Capture and Storage - Technology Landscape
  • 14. Carbon Capture and Storage - Industry Impact

5. ASSESSMENT OF TECHNOLOGY INNOVATIONS FACILITATING LCM IN THE AUTOMOTIVE SECTOR

  • 1. Significance of LCM in Automotive
  • 2. Renewable Energy Technology - Significance & Trends
  • 3. Waste Management - Significance & Trends
  • 4. Energy Efficiency - Significance & Trends
  • 5. Energy Efficiency - Assessment of Best Practices
  • 6. Energy Efficiency - Assessment of Best Practices (continued)

6. INNOVATION ECOSYSTEM FOR LCM IN THE AUTOMOTIVE SECTOR

  • 1. Renewable Energy - Innovators Profile
  • 2. Renewable Energy - Innovators Profile (continued)
  • 3. Renewable Energy - Innovators Profile (continued)
  • 4. Waste Management - Innovators Profile
  • 5. Energy Efficiency - Innovators Profile
  • 6. Energy Efficiency - Innovators Profile (continued)

7. BEST PRACTICES & STRATEGIC PERSPECTIVES

  • 1. Snippets of Global Best Practices for Adoption of LCM Techniques
  • 2. Technology Impact Framework Metrics
  • 3. Technology Impact Framework
  • 4. Near-Term Implementation Strategy
  • 5. Challenges and Gaps in Solar Energy Technologies for Low Carbon Manufacturing
  • 6. Challenges and Gaps in Wind and Hydro Power Technologies for Low Carbon Manufacturing
  • 7. Challenges and Gaps in Bioenergy Technologies for Low Carbon Manufacturing
  • 8. Challenges and Gaps in Carbon Capture and Storage Technologies for Low Carbon Manufacturing
  • 9. Opportunities for LCM in Developing Economies
  • 10. Challenges for Adoption of LCM in Developing Economies
  • 11. Strategic Perspectives

8. APPENDIX

  • 1. Technology Impact Analysis
  • 2. Technology Impact Analysis (continued)
  • 3. Technology Impact Analysis (continued)
  • 4. Legal Disclaimer

9. THE FROST & SULLIVAN STORY

  • 1. The Frost & Sullivan Story
  • 2. Value Proposition: Future of Your Company & Career
  • 3. Global Perspective
  • 4. Industry Convergence
  • 5. 360° Research Perspective
  • 6. Implementation Excellence
  • 7. Our Blue Ocean Strategy
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