表紙
市場調查報告書
商品編碼
975883

Power-to-X (PtX) 技術的進步及技術經濟展望

Power-to-X Technology Advancements and Techno-economic Perspective

出版日期: | 出版商: Frost & Sullivan | 英文 77 Pages | 商品交期: 最快1-2個工作天內

價格
  • 全貌
  • 簡介
  • 目錄
簡介

Power-to-X (PtX) 技術能源的脫碳化的機會。

本報告提供Power-to-X (PtX) 技術趨勢調查,技術概要,技術的分類,技術引進的各種影響因素分析,主要企業的計劃,主要的相關利益者、產品開發者,專利,經濟性分析,技術藍圖,成長機會、成長策略分析等資料。

第1章 策略性要件

第2章 Power-to-X (PtX):技術概要

  • 促進PtX:未來的零碳能源經濟
  • 架構:各零組件、途徑
  • 地區分析
  • 引進推動因素、市場機會
  • 引進的障礙、課題

第3章 PtX技術途徑

  • 技術連鎖和替代技術
  • 各種轉換途徑
  • Power-to-Hydrogen (電解)
  • Power-to-Power
  • Power-to-Fuel
  • Power-to-Mobility

第4章 革新生態系統:計劃、企業

  • Jupiter 1000
  • Power-to-Flex
  • HPEM2GAS
  • Carbon2Chem
  • FH2R
  • Underground Sun Conversion
  • Heat Smart Orkney
  • REFHYNE
  • 主要的相關利益者、產品開發者:Power-to-Hydrogen
  • 主要的相關利益者、產品開發者:Power-to-Fuel
  • 主要的相關利益者、產品開發者:Power-to-Gas
  • 主要的相關利益者、產品開發者:碳回收

第5章 IP分析

第6章 經濟性分析

第7章 成長機會

  • 成長的機會1:使RES整合和電力電網的穩定性成為可能的Power-to-X
  • 成長的機會2:由於GHG排放量的削減對低碳經濟有貢獻
  • 成長的機會3:來自各種產業部門的收益的複合
  • PtX技術:到2050年的發展藍圖
  • 成功、成長的策略性要件

第8章 主要聯繫處

第9章 下一步

目錄
Product Code: D9CF

Power-to-X Technology Delivers Energy Decarbonization Opportunities

Transition to a carbon-neutral energy economy requires a more environmentally-friendly energy carrier. Hydrogen and its multiple end-use applications play a huge role to contribute to decarbonization of major sectors of the economy. Power-to-X (P2X) is an interconnections concept between the different energy carriers, which promotes the integration of renewable energies, facilitates the balancing of the electricity grid and enhances the sustainable use of surplus energy production. By coupling several technological processes across different industries, P2X technology enables utilization of waste energy, excess power, and captured carbon dioxide (CO2), which contribute to energy economy. This research service, 'Power-to-X Technology Advancements and Techno-economic Perspective' provides a review of all technologies involved in Power-to-X system, their applications, and market prospects.

The findings and growth opportunities depicted in this study will help to drive the economic growth and technology revolution of the power-to-X industry.

P2X technology is in a relatively early stage of deployment due challenges like low efficiency and high cost compared to conventional energy generation. The research study presents key stakeholders involved in technology development and innovative Power-to-X projects that help validate technology feasibility. Special attention is given to the techno-economic analysis of technology and future roadmap.

The technology has potential to disrupt the market in the coming 5-10 years.

The study deeply illustrates the following:

  • Power-to-X technology trends, factors driving adoption and development of Power-to-X technologies
  • Key properties, drawbacks, research and development (R&D) activities
  • Power-to-X technological chain with technology alternatives , applications, market and future prospects
  • Technology ecosystem: innovative projects and key stakeholders
  • Techno-economic analysis of Power-to-X technology

Table of Contents

1.0 Strategic Imperatives

  • 1.1. The Strategic Imperative 8™
  • 1.2. The Strategic Imperative 8™
  • 1.3. The Impact of the Top Three Strategic Imperatives on Growth of the Power-to-X Technology
  • 1.4. About the Growth Pipeline Engine™
  • 1.5. Growth Opportunities Fuel the Growth Pipeline Engine™
  • 1.6. Research Scope - Foreseeing Challenges and Solutions
  • 1.7. Analysis Framework - Frost & Sullivan's Core Value
  • 1.8. Research Methodology

2.0 Power-to-X: Technology Overview

  • 2.1. Power-to-X Technology Promotes Future Zero Carbon Energy Economy
  • 2.2. Power-to-X Technology Architecture by Component and Route
  • 2.3. Power-to-X Technology - Regional Analysis
  • 2.4. Power-to-X Technology - Key Drivers and Opportunities for Deployment
  • 2.5. Key Drivers and Opportunities Explanation
  • 2.6. Power-to-X Technology - Key Drawbacks and Challenges for Deployment
  • 2.7. Key Drawbacks and Restraints Explanation

3.0 Power-to-X Technology Routes

  • 3.1. Power-to-X Technological Chain with Technology Alternatives
  • 3.2. Power-to-X Different Conversion Pathways
  • 3.3. Power-to-X Technology Routes: Power-to-hydrogen Route - Electrolysis
    • 3.3.1. Electrolysis as a Core Route in P2X System
    • 3.3.2. Existing Commercial or Near Commercial Electrolysis Technologies
    • 3.3.3. Comparative Analysis of Electrolysis Technologies
  • 3.4. Power-to-X Technology Routes: Power-to-Power Technology Routes
    • 3.4.1. Power-to-Power Technology Routes
    • 3.4.2. Comparative Analysis of Fuel Cell Technologies
  • 3.5. Power-to-X Technology Routes: Power-to-Fuel Technology Route
    • 3.5.1. Power-to-Methane Technology Routes
    • 3.5.2. Power-to-Chemical Technology Routes
    • 3.5.3. Potential Carbon Dioxide Sources for Hydrocarbons Synthesis
  • 3.6. Power-to-X Technology Routes: Power-to-Mobility Technology Route
    • 3.6.1. Power-to-Mobility Technology Routes

4.0 Innovation Ecosystem - Projects and Companies to Action

  • 4.1. Jupiter 1000, France
  • 4.2. Power-to-Flex, Netherlands
  • 4.3. HPEM2GAS, Italy
  • 4.4. Carbon2Chem, Germany
  • 4.5. FH2R, Japan
  • 4.6. Underground Sun Conversion, Austria
  • 4.7. Heat Smart Orkney, Scotland
  • 4.8. REFHYNE, Germany
  • 4.9. Key Stakeholders and Product Developers of Power-to-Hydrogen Technologies
  • 4.10. Key Stakeholders and Product Developers of Power-to-Fuel Technologies
  • 4.11. Key Stakeholders and Product Developers of Power-to-Gas Technologies
  • 4.12. Key Stakeholders and Product Developers of Carbon Capture Technologies

5.0 IP Analysis of Technologies Enabling Power-to-X

  • 5.1. Electrolysis Innovation: Patent Activity
  • 5.2. Fuel Cell Innovation: Patent Activity
  • 5.3. Synthetic Fuel Production: Patent Activity
  • 5.4. Carbon Capture Innovation: Patent Activity

6.0 Power-to-X Techno-economic Analysis

  • 6.1. Techno-economic Performance Indicators of Power-to-X Technology
  • 6.2. Techno-economic Comparison of Power-to-X Technology
  • 6.3. Comparison of Energy Conversion Efficiency of Power-to-X Routes
  • 6.4. Techno-economic Analysis of Power-to-X Technology - Discussion

7.0 Growth Opportunities

  • 7.1. Growth Opportunity 1: Power-to-X to Enables RES Integration and Power Grid Stability
  • 7.1. Growth Opportunity 1: Power-to-X to Enable RES Integration and Power Grid Stability
  • 7.2. Growth Opportunity 2: Power-to-X Contributes to Low-carbon Economy by Reduction of Greenhouse Gas Emission
  • 7.2. Growth Opportunity 2: Power-to-X Contributes to Low-carbon Economy by Reduction of Greenhouse Gas Emission
  • 7.3. Growth opportunity 3: P2X to Combine Revenues from Different Industry Sectors
  • 7.3. Growth opportunity 3: P2X to Combine Revenues from Different Industry Sectors
  • 7.4. Power-to-X Technology Roadmap to 2050
  • 7.5. Strategic Imperatives for Success and Growth

8.0 Key Contacts

  • 8.1. Key Contacts
  • 8.1. Key Contacts

9.0 Next Steps

  • 9.1. Your Next Steps
  • 9.2. Why Frost, Why Now?
  • Legal Disclaimer