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市场调查报告书
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1522936

2024-2029 年氢储存和运输材料进步的成长机会

Growth Opportunities in Material Advancements in Hydrogen Storage and Transportation, 2024-2029

出版日期: | 出版商: Frost & Sullivan | 英文 46 Pages | 商品交期: 最快1-2个工作天内

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简介目录

氢经济的出现以及对高效、安全的氢储存和运输的迫切需求将刺激新材料开发的技术创新。

除了宣布净零排放目标外,缓解气候变迁的持续努力正在推动氢经济,电解槽成本下降也得到了支持。氢经济的积极势头正在激发人们对储氢材料研究和开发的兴趣。

这些新材料的开发旨在取代传统的氢储存和运输方法,这些方法在效率、成本和安全性方面有其限制。这些新材料提供固体和液态氢存储,并具有多种理想的特性,包括低温和高压、易于存储和运输以及卓越的安全性。这些特性使新型储存材料特别适合长期/季节性储氢。

本研究涵盖以下主题:

  • 绿色氢价值链和储氢解决方案概述和主要特征
  • 氢储运主要新兴材料及其比较
  • 氢储运材料领域的主要相关人员
  • 基于氢密度、重量和成本的新型储氢材料比较
  • 各种储氢材料的专利状况和成长机会

目录

战略问题

  • 为什么成长如此困难?
  • The Strategic Imperative 8(TM)
  • 氢储运材料产业三大战略挑战的影响
  • 成长机会推动Growth Pipeline Engine(TM)
  • 调查方法

成长机会分析

  • 分析范围
  • 分割

成长要素

  • 生长促进因子
  • 成长抑制因素

氢储运材料技术简介

  • 绿色氢价值链
  • 氢储运技术概述
  • 新兴液体储氢材料
  • 新兴储氢材料的主要特征—LOHC
  • 新兴储氢材料-化学氢化物的主要特点
  • 新兴储氢材料-固体
  • 新兴储氢材料-金属氢化物的关键特性
  • 新兴储氢材料的主要特征—多孔材料
  • 最好的储氢材料
  • 储氢成本

创新生态系统

  • 北美和欧洲引领绿色氢能倡议
  • 氢储运材料领域主要参与企业
  • 氢储运材料-专利格局

成长要素

  • 成长机会1:氨作为绿氢关键载体的出现
  • 成长机会2:促进大型氢中心的发展
  • 成长机会三:提高燃料电池汽车的效率与成本竞争力

附录

  • TRL:说明

下一步

  • 成长机会的好处和影响
  • 下一步
  • 下一步
  • 免责声明
简介目录
Product Code: DAF1

Emergence of Hydrogen Economy and Urgent Need for Efficient and Safe Hydrogen Storage and Transportation are Driving Innovations toward New Material Development

Ongoing efforts to mitigate climate change, in addition to the announcement of net-zero emission targets, have provided a boost to the hydrogen economy, further supported by the declining cost of electrolyzers. This positive momentum toward the hydrogen economy has ignited interest in the research and development of hydrogen storage materials.

Development of these new materials is targeted toward replacing conventional hydrogen storage and transportation options that have limitations, in terms of efficiency, cost, and safety. These new materials, which include both solid-state and liquid hydrogen storage options, have several desirable features, such as lower temperature and pressure requirements, ease of storage and transportation, and superior safety. These attributes make emerging storage materials particularly suitable for long duration/seasonal hydrogen storage.

The research study covers the following topics:

  •      Overview of green hydrogen value chain and hydrogen storage solutions and their key attributes
  •      Major emerging materials for hydrogen storage and transportation and their comparisons
  •      Major stakeholders within the hydrogen storage and transportation materials space
  •      Comparison of emerging hydrogen storage and transportation materials based on their hydrogen density, weight, and cost
  •      Patent landscape and growth opportunities pertaining to various hydrogen storage materials

Table of Contents

Strategic Imperatives

  • Why Is It Increasingly Difficult to Grow?
  • The Strategic Imperative 8™
  • The Impact of the Top 3 Strategic Imperatives on the Hydrogen Storage and Transportation Materials Industry
  • Growth Opportunities Fuel the Growth Pipeline Engine™
  • Research Methodology

Growth Opportunity Analysis

  • Scope of Analysis
  • Segmentation

Growth Generator

  • Growth Drivers
  • Growth Restraints

Materials for Hydrogen Storage and Transportation: Technology Snapshot

  • Green Hydrogen Value Chain
  • Hydrogen Storage and Transportation Technology Overview
  • Emerging Hydrogen Storage Materials-Liquid
  • Key Characteristics of Emerging Hydrogen Storage Materials-LOHCs
  • Key Characteristics of Emerging Hydrogen Storage Materials-Chemical Hydrides
  • Emerging Hydrogen Storage Materials-Solid
  • Key Characteristics of Emerging Hydrogen Storage Materials-Metal Hydrides
  • Key Characteristics of Emerging Hydrogen Storage Materials-Porous Materials
  • Best Performing Hydrogen Storage Materials
  • Hydrogen Storage Costs

Innovation Ecosystem

  • North America and Europe Lead the Way in Driving Green Hydrogen Initiatives
  • Key Participants in the Hydrogen Storage and Transportation Materials Space
  • Hydrogen Storage and Transportation Materials-Patent Landscape

Growth Generator

  • Growth Opportunity 1: Emergence of Ammonia as Primary Green Hydrogen Carrier
  • Growth Opportunity 2: Enabling Development of Large-Scale Hydrogen Hubs
  • Growth Opportunity 3: Making Fuel Cell Vehicles Efficient & Cost Competitive

Appendix

  • TRL: Explanation

Next Steps

  • Benefits and Impacts of Growth Opportunities
  • Next Steps
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  • Legal Disclaimer