沼气氢气生产市场规模 - 依生产製程（蒸汽甲烷重整、自热重整、部分氧化重整）、按应用（发电、化学品、海洋、运输）和预测，2024 - 2032 年

Biogas to Hydrogen Market Size - By Production Process (Steam Methane Reforming, Autothermal Reforming, Partial Oxidation Reforming), By Application (Power Generation, Chemicals, Marine, Transport) & Forecast, 2024 - 2032

出版日期: 2024年05月08日 | 出版商:

Global Market Insights Inc. | 英文 115 Pages | 商品交期: 2-3个工作天内

价格

简介目录

在领先公司之间的策略合作伙伴关係的推动下，全球沼气氢气生产市场将在 2024 年至 2032 年间实现 28% 的复合年增长率。这些合作利用再生能源和气体转换技术的专业知识，促进沼气来源的可持续氢气生产。透过结合资源和创新，该公司的目标是扩大生产能力并提高将沼气转化为氢气的效率，氢气是一种对交通和工业等各个部门脱碳至关重要的清洁燃料。

例如，2024 年 4 月，印度沼气协会 (IBA) 与印度氢能协会 (HAI) 合作推动生物基能源解决方案，特别关注绿氢和蓝氢。 IBA 主席 Gaurav Kedia 在接受 PTI 采访时表示，两个组织已签署了一份谅解备忘录 (MoU)，旨在促进印度境内的可再生能源生产。

这些合作伙伴关係也促进了新技术和製程的研究，降低了成本并增强了沼气氢气生产解决方案的可行性。随着全球减少碳排放的承诺不断加强，在致力于为永续未来开拓绿色能源解决方案的强大产业联盟的支持下，沼气氢气生产市场有望大幅扩张。

沼气製氢产业的总体规模根据生产流程、应用和地区进行分类。

到 2032 年，自热重整领域将呈现出可观的成长率。自热重整将蒸汽重整与部分氧化结合在一个反应器中，优化氢气生产，同时最大限度地减少能源消耗和碳排放。随着产业和政府优先考虑清洁能源解决方案，自热重整提供了一种可扩展的方法来为各种应用（包括燃料电池和工业流程）生产氢气。该市场的成长是由其支持向绿色能源转型和减少对化石燃料依赖的潜力所推动的。

随着工业和公用事业寻求清洁能源解决方案，发电领域可能会在 2024 年至 2032 年期间主导沼气氢气生产市场的应用前景。来自有机废弃物的沼气经由蒸气重整或电解等过程转化为氢气。氢气是一种清洁燃料，可用于燃料电池发电，除水蒸气外，排放为零。这种能力使沼气氢气生产成为分散式发电的一个有吸引力的选择，提供可靠的电力，同时减少对环境的影响。随着全球能源需求朝着永续发展的方向发展，用于发电的沼气氢气生产市场即将成长，推动再生能源技术的创新。

在欧洲，由于雄心勃勃的气候目标和向再生能源的转变，对沼气氢气生产解决方案的需求不断增长。源自有机废弃物的沼气因其透过蒸汽重整和电解等先进转化技术生产氢气的潜力而日益受到重视。这种氢气对于整个欧洲的工业、运输和供热产业脱碳至关重要。透过支持性政策、基础设施投资和合作研究倡议，欧洲国家正在加速采用沼气製氢，旨在实现碳中和并增强能源安全，同时培养非洲大陆可持续的能源未来。

Global Biogas to Hydrogen Market will witness a 28% CAGR between 2024 and 2032 fueled by strategic partnerships between leading companies. These collaborations leverage expertise in renewable energy and gas conversion technologies to advance sustainable hydrogen production from biogas sources. By combining resources and innovation, companies aim to scale production capabilities and improve efficiency in converting biogas into hydrogen, a clean fuel crucial for decarbonizing various sectors like transportation and industry.

For instance, in April 2024, the Indian Biogas Association (IBA) collaborated with the Hydrogen Association of India (HAI) to advance bio-based energy solutions, particularly focusing on green and blue hydrogen. In an interview with PTI, Gaurav Kedia, Chairman of IBA, stated that the two organizations have signed a memorandum of understanding (MoU) aimed at fostering the production of renewable energy within India.

These partnerships also facilitate research into new technologies and processes, driving down costs and enhancing the viability of biogas-to-hydrogen solutions. As global commitments to reduce carbon emissions intensify, the market for biogas to hydrogen is poised for significant expansion, supported by robust industry alliances focused on pioneering greener energy solutions for a sustainable future.

The overall Biogas to Hydrogen Industry size is classified based on the production process, application, and region.

The autothermal reforming segment will exhibit a decent growth rate through 2032. Autothermal reforming process converts biogas, derived from organic materials, into hydrogen efficiently and sustainably. Autothermal reforming combines steam reforming with partial oxidation in a single reactor, optimizing hydrogen production while minimizing energy consumption and carbon emissions. As industries and governments prioritize clean energy solutions, autothermal reforming offers a scalable method to produce hydrogen for various applications, including fuel cells and industrial processes. The market's growth is driven by its potential to support a transition towards greener energy sources and reduce dependence on fossil fuels.

The power generation segment could dominate the application landscape of the Biogas to Hydrogen market over 2024-2032 as industries and utilities seek cleaner energy solutions. Biogas, derived from organic waste, is converted into hydrogen through processes like steam reforming or electrolysis. Hydrogen, a clean fuel, can then be used in fuel cells to generate electricity with zero emissions other than water vapor. This capability makes biogas-to-hydrogen an attractive option for decentralized power generation, providing reliable electricity while reducing environmental impact. As global energy demands evolve towards sustainability, the market for biogas to hydrogen for power generation is poised for growth, driving innovation in renewable energy technologies.

In Europe, there is a growing demand for biogas to hydrogen solutions driven by ambitious climate targets and a shift towards renewable energy. Biogas, sourced from organic waste, is increasingly valued for its potential to produce hydrogen through advanced conversion technologies like steam reforming and electrolysis. This hydrogen is pivotal in decarbonizing industries, transportation, and heating sectors across Europe. With supportive policies, investments in infrastructure, and collaborative research initiatives, European countries are accelerating the adoption of biogas to hydrogen, aiming to achieve carbon neutrality and enhance energy security while fostering a sustainable energy future for the continent.

Chapter 1 Research Methodology

1.1 Research design
1.2 Base estimates & calculations
1.3 Forecast model
1.4 Primary research & validation
- 1.4.1 Primary sources
- 1.4.2 Data mining sources

Chapter 2 Executive summary

2.1 Industry 360° synopsis, 2019 - 2032

Chapter 3 Industry Insights

3.1 Industry ecosystem
3.2 Regulatory landscape
3.3 Industry impact forces
- 3.3.1 Growth drivers
- 3.3.2 Industry pitfalls & challenges
3.4 Growth potential analysis
3.5 Porter's analysis
- 3.5.1 Bargaining power of suppliers
- 3.5.2 Bargaining power of buyers
- 3.5.3 Threat of new entrants
- 3.5.4 Threat of substitutes
3.6 PESTEL analysis