全球氢市场：依需求、产量、部门、原产地、技术、地区、规模、趋势、COVID-19 的影响进行分析、预测（截至 2029 年）

氢气是一种无色无味的气体，是所有气体中密度最低的。氢被认为是全球经济脱碳、减少温室气体排放和限制全球暖化影响的重要工具。氢市场主要集中在原油精製、氨肥生产和金属加工等领域。然而，近年来，人们不断努力使氢成为再生能源来源，因为使用氢作为能源载体的唯一优势是副产物与水和氧气反应时产生的热量。氢目前的市场相对较小，污染严重，并且仅限于某些行业（炼油厂、化工生产），但它是能源储存的重要解决方案，如果“绿色”，它可以消除二氧化碳，因为排放二氧化碳。全球氢市场呈现持续成长，主要是由于对氢基燃料的需求不断增加、对工业脱碳和脱硫以实现永续性目标的兴趣日益浓厚、钢铁和发电行业的持续发展以满足世界日益增长的电力需求。 2023年全球氢市场规模为2,161.9亿美元，预估2024-2029年预测期间复合年增长率为7.63%。

近年来，由于氢有可能作为石化燃料的永续替代品，特别是在发电和运输领域，全球氢市场的需求迅速增长。虽然工业需求本身（目前实际上是唯一的主要消费者）也在成长，但应用的扩展是需求成长的主要驱动力。主要经济体承诺到 2050 年实现净零排放，太阳能和风能等再生能源来源成本的下降，以及传统上严重依赖煤炭的钢铁製造等行业的氢的新应用，都预示着氢的新途径。预计到2030年，全球氢市场需求将增加至13,881万吨。

全球努力减少碳足迹，导致对电解等清洁生产方法的投资，以及对源自可再生能源的「可再生氢」的兴趣日益增长，氢在能源储存和释放方面具有无与伦比的灵活性，这对于稳定电网至关重要；与市场上氢气产量增加有关的关键原因。预计2050年全球氢气产量将达68,518万吨。

本报告研究和分析了全球氢市场，提供了有关市场动态、COVID-19 的影响、竞争格局等的资讯。

目录

第一章执行摘要

第二章简介

• 氢气：概述
  • 氢的定义
  • 氢气的特性
  • 氢色
• 氢市场细分：概述
  • 氢市场细分

第三章 全球市场分析

• 全球氢市场：分析
  • 全球氢市场：概述
  • 全球氢能市场规模
  • 全球氢市场：依技术分类（蒸汽甲烷重整、煤炭气化、电解等）
  • 全球氢市场：按地区（北美、欧洲、亚太地区、世界其他地区）
• 全球氢市场需求：分析
  • 全球氢市场需求：概述
  • 全球氢市场：依需求划分
  • 全球氢市场需求：依产业划分（现有工业用途、交通、发电、建筑/工业供热、新型工业原料）
  • 全球氢气市场需求：依地区（中国、欧洲、北美、印度、日本、韩国等地区）
• 全球氢市场生产：分析
  • 全球氢市场：依产量划分，概览
  • 全球氢市场：依产量分类
  • 全球氢市场产量：依来源分类（灰色、可再生、低碳）
  • 全球氢市场产量：按地区（北美、中国、中东和非洲、欧洲、世界其他地区）
• 全球氢市场：技术分析
  • 全球氢市场：依技术、概述
  • 全球蒸气甲烷重整氢气市场规模
  • 全球煤炭气化氢市场规模
  • 全球电解氢气市场规模
  • 全球其他氢市场规模
• 全球氢市场需求：产业分析
  • 全球氢市场需求：依产业划分，概览
  • 现有工业用途的全球氢市场：依需求
  • 全球流动氢市场：依需求划分
  • 全球氢能发电市场：依需求划分
  • 全球建筑/工业热氢市场：依需求划分
  • 全球新型工业原料氢市场：依需求划分
• 全球氢市场生产：来源分析
  • 全球氢气市场生产：依产地分类、概述
  • 全球灰氢市场：依产量分类
  • 全球可再生氢市场：依产量分类
  • 全球低碳氢化合物市场：依产量划分

第四章区域市场分析

• 亚太氢气市场：分析
  • 亚太氢气市场：概述
  • 亚太地区氢市场规模
  • 亚太氢气市场：依地区（中国、印度、日本、韩国、澳洲、亚太其他地区）
  • 中国氢能市场规模
  • 中国氢能市场：依需求划分
  • 中国氢气市场：依产量划分
  • 印度氢气市场规模
  • 印度氢市场：依需求划分
  • 日本和韩国氢市场规模
  • 日本和韩国的氢市场：依需求划分
  • 澳洲氢市场规模
  • 亚太地区其他氢能市场规模
• 北美氢市场：分析
  • 北美氢市场：概述
  • 北美氢气市场规模
  • 北美氢市场：按地区（美国、加拿大、墨西哥）
  • 北美氢气市场：依需求划分
  • 北美氢气市场：依产量分类
  • 美国氢气市场规模
  • 美国氢气市场：依技术分类（蒸气甲烷重整、煤炭气化、其他）
  • 美国氢能市场技术（金额）
  • 加拿大氢市场规模
  • 墨西哥氢市场规模
• 欧洲氢市场：分析
  • 欧洲氢市场：概述
  • 欧洲氢气市场规模
  • 欧洲氢市场：按地区（德国、法国、英国、欧洲其他地区）
  • 欧洲氢市场：依需求划分
  • 欧洲氢市场：依产量分类
  • 德国氢气市场规模
  • 法国氢气市场规模
  • 英国氢市场规模
  • 其他欧洲氢市场规模
• 其他地区氢市场：分析
  • 其他地区氢市场：概述
  • 其他地区氢能市场规模
  • 其他地区的氢市场：依需求划分
  • 其他地区的氢市场：按产量

第 5 章 COVID-19 的影响

• COVID-19 对氢市场的影响
• COVID-19 后对氢市场的影响

第六章市场动态

• 生长促进因子
  • 增加氨基肥料的使用
  • 有利的政府政策和倡议
  • 能源最终用途脱碳的需求不断增长
  • 增加使用氢气作为火箭推进剂
  • 各种最终用途产业对氢气的需求不断增长
• 任务
  • 能量转换损失高
  • 替代技术导致竞争加剧
• 市场趋势
  • 氢燃料电池的采用增加
  • 氢能计划增加
  • 降低氢气配送成本
  • 扩大绿氢的使用
  • 日益关注实现净零排放目标
  • 氢气技术不断进步

第七章 竞争格局

• 全球氢市场：竞争格局

第八章 公司简介

• BP plc.
• Air Products and Chemicals, Inc.
• Nel ASA
• Linde plc
• FuelCell Energy, Inc.
• Iwatani Corporation
• Messer SE & Co. KGaA
• Air Liquide SA
• SOL Group
• Net Sales by Business Type
• First Hydrogen Corp.
• Lhyfe SAS

Hydrogen is a gas with no color and odour and has the lowest density of all gases. Hydrogen is viewed as a crucial way of decarbonizing the global economy, reducing greenhouse gas emissions and limiting the effects of global warming. The hydrogen market is primarily focused on refining crude oil, producing ammonia fertilizers and processing metals. However, in recent years, an ongoing effort has been made to make it a viable renewable energy source as the advantage of employing hydrogen as an energy carrier is that the only byproducts are water and heat when it reacts with oxygen. Although hydrogen is currently a relatively small market, pollutive, and dedicated to specific industries (refineries, chemical production), it has become the source of a lot of hope for the energy transition, as it represents a key solution for the storage of energy and does not emit CO2 when it is "green". Global hydrogen market demonstrated a consistent growth, primarily driven by increasing demand for hydrogen-based fuels, growing focus on industrial decarbonization and desulfurization to meet sustainability goals, and ongoing developments in steel and power generation industries to meet with the growing global electricity demand. The global hydrogen market value stood at US$216.19 billion in 2023, and is expected to grow at a CAGR of 7.63% over the projected period of 2024-2029.

The global hydrogen market demand has been rapidly growing in recent years due to hydrogen's potential to act as a sustainable alternative to fossil fuels, particularly in the power generation and transportation sectors. The increasing proliferation of applications is a major driver behind the growing demand, although industrial demand itself (virtually the only major consumer today) will also rise. Commitments by major economies to achieve net-zero emissions by 2050, declining costs of renewable energy sources, like solar and wind, and emerging applications of hydrogen in sectors like steel manufacturing, which traditionally relied heavily on coal, present new avenues for hydrogen consumption. The global hydrogen market demand is projected to increase to 138.81 million metric tons by 2030.

Global commitment to reduce carbon footprints leading to investments in cleaner production methods like electrolysis, a surging interest in "green hydrogen" harnessed from renewable energy, and the unmatched flexibility of hydrogen in energy storage and release, vital for grid stabilization amid the influx of variable renewable energy, have been some of the pivotal reasons associated with increased hydrogen production in the market. The global hydrogen market production is anticipated to be 685.18 million metric tons in 2050.

Market Segmentation Analysis:

By Technology: The report provides the bifurcation of the hydrogen market value into four segments based on technology: steam methane reforming, electrolysis, coal gasification, and others. Steam methane reforming is the largest segment of global hydrogen market owing to increasing crude oil consumption, favorable government policies and efforts towards the refurbishment of existing refining facilities, increased global demand for hydrogen as a clean energy carrier, ongoing research and development efforts aimed at improving the efficiency & environmental performance of SMR technology, and the presence of well-maintained supply chain and existing infrastructure for methane extraction, transportation, and distribution. Electrolysis is the fastest growing segment of hydrogen market owing to increased need for renewable energy sources for the fulfillment of ambitious decarbonization targets and net-zero emissions goals, favorable government policies and incentives to promote the use of hydrogen & green hydrogen production, and falling prices of electrolyzer equipment.

By Sector: The report provides the bifurcation of the hydrogen market demand into five segments on the basis of sector: existing industry use, mobility, power generation, building and industry heat, and new industry feedstock. The hydrogen demand for mobility will continue to grow at a fast pace in the forecasted period, owing to, increasing investment in fuel cells, continuous deployment of fuel cell vehicles and setup up of new hydrogen refueling stations to provide customers with redly available fuel, growing focus to increase the decarbonization of transportation sector, and increasing sale of fuel cell electric vehicles (FCEV) by major companies in the sector.

By Source: The report provides the bifurcation of the hydrogen market production into three segments on the basis of source: grey, renewable and low carbon. Today's hydrogen is mostly grey hydrogen (i.e., produced from fossil fuels). There is hardly any production capacity for green hydrogen as of today. Green hydrogen would represent two-thirds of the total hydrogen output of by 2050 while low carbon would account for the remainder by then. Renewable hydrogen production will rapidly increase in the upcoming years due to global transfer towards sustainable energy and net zero carbon emissions, increased need to decarbonize existing power systems, and long-term viability and sustainability associated with the production method. Similarly, increased focus of industries on carbon footprint reduction, and low cost associated with low carbon hydrogen production in comparison to other hydrogen production, indicate increased low carbon hydrogen production in the forecasted years. Also, according to IEA, in January 2022, there were at least 50 blue hydrogen projects in the works around the world, with capacity expected to grow more than tenfold by 2030, further implying high low carbon hydrogen production.

By Region: The report provides insight into hydrogen market value based on the regions namely, Europe, North America, Asia Pacific, and rest of the world. Asia Pacific hydrogen market is the largest and the fastest growing region of global hydrogen market, owing to rising demand for clean energy, strong presence of refineries in major countries such a China and India, favorable government policies, rising hydrogen demand for power generation, growing investments in hydrogen refueling infrastructure, and increasing adoption of transportation solutions such as electric vehicles and automated buses in many Asian economies.

China is the world's largest consumer of H2 produced from fossil fuels, owing to rising investments in clean energy-based power plants, major research and development activities in the region targeting to reduce the cost of green hydrogen generation, and strong government support. According to the National Development and Reform Commission (NDRC) and energy regulator National Energy Administration (NEA), by 2025, China plans to manufacture 100,000-200,000 metric tons of green hydrogen from renewable sources per year, reducing CO2 emissions by 1-2 million metric tons annually.

North America hydrogen market has been positively expanding over the years, as a result of, country's high energy demands, ongoing adoption of advanced hydrogen-based technologies, growing demand of hydrogen for petroleum refining and ammonia manufacturing, and presence of comprehensive gas pipelines in North American countries. The US is the largest region within North America. The US Infrastructure and Jobs Act has budgeted US$9.5 billion for research, development and demonstration for hydrogen related projects until 2026, of which US$8 billion will be set aside for project development. The US hydrogen market is also further divided into three segments on the basis of technology namely, steam methane reforming, coal gasification, and others, where the US steam methane reforming hydrogen market is the largest segment.

Market Dynamics:

Growth Drivers: The global hydrogen market has been rapidly growing over the past few years, due to factors such as increasing usage of ammonia-based fertilizers, rising demand of hydrogen by various end user industries, favorable government policies and initiatives, rising demand to decarbonize energy end-use, increasing use of hydrogen as rocket propellants, etc. Mushrooming demand for hydrogen in refining industry for cracking long-chain hydrocarbons into shorter chains, and removing sulfur compounds from crude oil during the production of gasoline have been positively contributing to the increased demand for hydrogen. Also, increased emphasis on fuel gas desulphurization, significant interest in achieving carbon neutrality by government of major economies, and various government authorities and agencies introducing favorable initiatives, investments, funds, and incentives to spur hydrogen production and meet ambitious climate-neutral targets, will continue to boost the growth of global hydrogen market in the forecasted period of 2024-2029.

Challenges: However, the market growth would be negatively impacted by various challenges such as high energy conversion losses, increased competition from alternative technologies, etc. Hydrogen must be stored in gaseous form to be used as a fuel cell, and this method of hydrogen storage leads to inherent loss of energy as compressing hydrogen utilizes 13% of total energy content by itself and if it is liquified, then it loses about 40% of energy.

Trends: The market is projected to grow at a fast pace during the forecasted period, due to, rising adoption of hydrogen fuel cells, increasing number of hydrogen projects, falling distribution cost of hydrogen, growing use of green hydrogen, rising focus on achieving net zero emissions target, ongoing technological advancements in hydrogen generation, etc. Major corporations and organizations are undertaking an increasing number of hydrogen projects to boost the overall production and consumption of hydrogen, while creating new business opportunities and investment prospects in the hydrogen market in the forecasted period. In addition, there has been an increase in the number of initiatives by both developed and developing countries to generate green hydrogen in order to meet the rising global demand for green hydrogen. Thus, augmenting the growth of global hydrogen market in the years to come.

Impact Analysis of COVID-19 and Way Forward:

COVID-19 brought in many changes in the world in terms of reduced productivity, loss of life, business closures, closing down of factories and organizations, and shift to an online mode of work. The COVID-19 pandemic had a detrimental impact on the hydrogen market. The initial shockwave of the pandemic disrupted supply chains and slowed down industrial activities, causing a drop in hydrogen demand across various sectors. Lockdowns and economic uncertainties prompted curbs on investment, causing a slowdown in the expansion of clean energy initiatives, including hydrogen-related projects. Lockdowns and economic uncertainties led to project delays and cancellations, especially in industries heavily reliant on hydrogen, such as automotive and manufacturing. As governments redirected resources towards pandemic relief efforts, funding for hydrogen research and infrastructure projects often took a backseat, resulting in a slowdown of hydrogen-related initiatives. This lack of financial support hindered the development and scaling up of hydrogen technologies.

Competitive Landscape:

The global hydrogen market is mildly consolidated with the top players of the market acquiring majority of the market share, and increasing number of regional and local players worldwide catering to the local demand and engaging in various research & development activities and initiatives, collaborations and products launches to develop and deploy new and more efficient products in the market. For instance, On April 20, 2023, Linde plc announced that the company has signed a long-term agreement to supply green hydrogen to Evonik, a specialty chemicals company, where Linde will build, own and operate a nine-megawatt alkaline electrolyzer plant on Jurong Island, Singapore, to produce green hydrogen. Similarly, on May 26, 2022, ACWA power, OQ and Air Products signed joint development agreement toward world-scale green hydrogen-based ammonia production facility in Oman.

The key players of the hydrogen market are:

BP plc.

Air Products and Chemicals, Inc.

Nel ASA

Linde plc

FuelCell Energy, Inc.

Iwatani Corporation

Messer SE & Co. KGaA

Air Liquide S.A.

SOL Group

First Hydrogen Corp.

Lhyfe SAS

Table of Contents

1. Executive Summary

2. Introduction

• 2.1 Hydrogen: An Overview
  • 2.1.1 Hydrogen Definition
  • 2.1.2 Characteristics of Hydrogen
  • 2.1.3 Colors of Hydrogen
• 2.2 Hydrogen Market Segmentation: An Overview
  • 2.2.1 Hydrogen Market Segmentation

3. Global Market Analysis

• 3.1 Global Hydrogen Market: An Analysis
  • 3.1.1 Global Hydrogen Market: An Overview
  • 3.1.2 Global Hydrogen Market by Value
  • 3.1.3 Global Hydrogen Market by Technology (Steam Methane Reforming, Coal Gasification, Electrolysis, and Others)
  • 3.1.4 Global Hydrogen Market by Region (North America, Europe, Asia Pacific, and Rest of the World)
• 3.2 Global Hydrogen Market Demand: An Analysis
  • 3.2.1 Global Hydrogen Market by Demand: An Overview
  • 3.2.2 Global Hydrogen Market by Demand
  • 3.2.3 Global Hydrogen Market Demand by Sector (Existing Industry Use, Mobility, Power Generation, Building And Industry Heat, and New Industry Feedstock)
  • 3.2.4 Global Hydrogen Market Demand by Region (China, Europe, North America, India, Japan and Korea and Rest of the World)
• 3.3 Global Hydrogen Market Production: An Analysis
  • 3.3.1 Global Hydrogen Market by Production: An Overview
  • 3.3.2 Global Hydrogen Market by Production
  • 3.3.3 Global Hydrogen Market Production by Source (Grey, Renewable And Low Carbon)
  • 3.3.4 Global Hydrogen Market Production by Region (North America, China, Middle East and Africa, Europe and Rest of the World)
• 3.4 Global Hydrogen Market: Technology Analysis
  • 3.4.1 Global Hydrogen Market by Technology: An Overview
  • 3.4.2 Global Steam Methane Reforming Hydrogen Market by Value
  • 3.4.3 Global Coal Gasification Hydrogen Market by Value
  • 3.4.4 Global Electrolysis Hydrogen Market by Value
  • 3.4.5 Global Others Hydrogen Market by Value
• 3.5 Global Hydrogen Market Demand: Sector Analysis
  • 3.5.1 Global Hydrogen Market Demand by Sector: An Overview
  • 3.5.2 Global Existing Industry Use Hydrogen Market by Demand
  • 3.5.3 Global Mobility Hydrogen Market by Demand
  • 3.5.4 Global Power Generation Hydrogen Market by Demand
  • 3.5.5 Global Building and Industry Heat Hydrogen Market by Demand
  • 3.5.6 Global New Industry Feedstock Hydrogen Market by Demand
• 3.6 Global Hydrogen Market Production: Source Analysis
  • 3.6.1 Global Hydrogen Market Production by Source: An Overview
  • 3.6.2 Global Grey Hydrogen Market by Production
  • 3.6.3 Global Renewable Hydrogen Market by Production
  • 3.6.4 Global Low Carbon Hydrogen Market by Production

4. Regional Market Analysis

• 4.1 Asia Pacific Hydrogen Market: An Analysis
  • 4.1.1 Asia Pacific Hydrogen Market: An Overview
  • 4.1.2 Asia Pacific Hydrogen Market by Value
  • 4.1.3 Asia Pacific Hydrogen Market by Region (China, India, Japan and Korea, Australia, and Rest of Asia Pacific)
  • 4.1.4 China Hydrogen Market by Value
  • 4.1.5 China Hydrogen Market by Demand
  • 4.1.6 China Hydrogen Market by Production
  • 4.1.7 India Hydrogen Market by Value
  • 4.1.8 India Hydrogen Market by Demand
  • 4.1.9 Japan and Korea Hydrogen Market by Value
  • 4.1.10 Japan and Korea Hydrogen Market by Demand
  • 4.1.11 Australia Hydrogen Market by Value
  • 4.1.12 Rest of Asia Pacific Hydrogen Market by Value
• 4.2 North America Hydrogen Market: An Analysis
  • 4.2.1 North America Hydrogen Market: An Overview
  • 4.2.2 North America Hydrogen Market by Value
  • 4.2.3 North America Hydrogen Market by Region (The US, Canada, and Mexico)
  • 4.2.4 North America Hydrogen Market by Demand
  • 4.2.5 North America Hydrogen Market by Production
  • 4.2.6 The US Hydrogen Market by Value
  • 4.2.7 The US Hydrogen Market by Technology (Steam Methane Reforming, Coal Gasification, and Others)
  • 4.2.8 The US Hydrogen Market Technology by Value
  • 4.2.9 Canada Hydrogen Market by Value
  • 4.2.10 Mexico Hydrogen Market by Value
• 4.3 Europe Hydrogen Market: An Analysis
  • 4.3.1 Europe Hydrogen Market: An Overview
  • 4.3.2 Europe Hydrogen Market by Value
  • 4.3.3 Europe Hydrogen Market by Region (Germany, France, UK, and Rest of Europe)
  • 4.3.4 Europe Hydrogen Market by Demand
  • 4.3.5 Europe Hydrogen Market by Production
  • 4.3.6 Germany Hydrogen Market by Value
  • 4.3.7 France Hydrogen Market by Value
  • 4.3.8 UK Hydrogen Market by Value
  • 4.3.9 Rest of Europe Hydrogen Market by Value
• 4.4 Rest of the World Hydrogen Market: An Analysis
  • 4.4.1 Rest of the World Hydrogen Market: An Overview
  • 4.4.2 Rest of the World Hydrogen Market by Value
  • 4.4.3 Rest of the World Hydrogen Market by Demand
  • 4.4.4 Rest of the World Hydrogen Market by Production

5. Impact of COVID-19

• 5.1 Impact of COVID-19 on Hydrogen Market
• 5.2 Post-COVID-19 Impact on Hydrogen Market

6. Market Dynamics

• 6.1 Growth Drivers
  • 6.1.1 Increasing Usage of Ammonia Based Fertilizers
  • 6.1.2 Favorable Government Policies and Initiatives
  • 6.1.3 Rising Demand to Decarbonize Energy End-Use
  • 6.1.4 Increasing Use Of Hydrogen As Rocket Propellants
  • 6.1.5 Rising Demand Of Hydrogen By Various End User Industries
• 6.2 Challenges
  • 6.2.1 High Energy Conversion losses
  • 6.2.2 Increased Competition From Alternative Technologies
• 6.3 Market Trends
  • 6.3.1 Rising Adoption Of Hydrogen Fuel Cells
  • 6.3.2 Increasing Number Of Hydrogen Projects
  • 6.3.3 Falling Distribution Cost Of Hydrogen
  • 6.3.4 Growing Use Of Green Hydrogen
  • 6.3.5 Rising Focus On Achieving Net Zero Emissions Target
  • 6.3.6 Ongoing Technological Advancements In Hydrogen Generation

7. Competitive Landscape

• 7.1 Global Hydrogen Market: Competitive Landscape

8. Company Profiles

• 8.1 BP plc.
  • 8.1.1 Business Overview
  • 8.1.2 Operating Segments
  • 8.1.3 Business Strategy
• 8.2 Air Products and Chemicals, Inc.
  • 8.2.1 Business Overview
  • 8.2.2 Operating Segments
  • 8.2.3 Business Strategy
• 8.3 Nel ASA
  • 8.3.1 Business Overview
  • 8.3.2 Operating Segments
  • 8.3.3 Business Strategy
• 8.4 Linde plc
  • 8.4.1 Business Overview
  • 8.4.2 Operating Segments
  • 8.4.3 Business Strategy
• 8.5 FuelCell Energy, Inc.
  • 8.5.1 Business Overview
  • 8.5.2 Revenues by Geographic Location
  • 8.5.3 Business Strategy
• 8.6 Iwatani Corporation
  • 8.6.1 Business Overview
  • 8.6.2 Reportable Segments
  • 8.6.3 Business Strategy
• 8.7 Messer SE & Co. KGaA
  • 8.7.1 Business Overview
  • 8.7.2 Revenue by Geographic Regions
  • 8.7.3 Business Strategy
• 8.8 Air Liquide S.A.
  • 8.8.1 Business Overview
  • 8.8.2 Operating Segments
  • 8.8.3 Business Strategy
• 8.9 SOL Group
  • 8.9.1 Business Overview
  • 8.9.2 Net Sales by Business Type
  • 8.9.3 Business Strategy
• 8.10 First Hydrogen Corp.
  • 8.10.1 Business Overview
  • 8.10.2 Business Strategy
• 8.11 Lhyfe SAS
  • 8.11.1 Business Overview
  • 8.11.2 Business Strategy

List of Tables

• Table 1: Hydrogen-Related Strategies With Associated Deployment Targets By 2030 And Production Type
• Table 2: Global Hydrogen Market Players: Key Comparison

List of Figures

• Figure 1: Physical and Chemical Characteristics of Hydrogen
• Figure 2: Colors of Hydrogen
• Figure 3: Hydrogen Market Segmentation
• Figure 4: Global Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 5: Global Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 6: Global Hydrogen Market by Technology; 2023 (Percentage, %)
• Figure 7: Global Hydrogen Market by Region; 2023 (Percentage, %)
• Figure 8: Global Hydrogen Market by Demand; 2020-2023 (Million Metric Tons)
• Figure 9: Global Hydrogen Market by Demand; 2024-2050 (Million Metric Tons)
• Figure 10: Global Hydrogen Market Demand by Sector; 2030 & 2050 (Percentage, %)
• Figure 11: Global Hydrogen Market Demand by Region; 2030 & 2050 (Percentage, %)
• Figure 12: Global Hydrogen Market by Production; 2020-2023 (Million Metric Tons)
• Figure 13: Global Hydrogen Market by Production; 2024-2050 (Million Metric Tons)
• Figure 14: Global Hydrogen Market Production by Source; 2030 & 2050 (Percentage, %)
• Figure 15: Global Hydrogen Market Production by Region; 2030 & 2050 (Percentage, %)
• Figure 16: Global Steam Methane Reforming Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 17: Global Steam Methane Reforming Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 18: Global Coal Gasification Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 19: Global Coal Gasification Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 20: Global Electrolysis Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 21: Global Electrolysis Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 22: Global Others Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 23: Global Others Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 24: Global Existing Industry Use Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 25: Global Mobility Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 26: Global Power Generation Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 27: Global Building and Industry Heat Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 28: Global New Industry Feedstock Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 29: Global Grey Hydrogen Market by Production; 2020-2050 (Million Metric Tons)
• Figure 30: Global Renewable Hydrogen Market by Production; 2020-2050 (Million Metric Tons)
• Figure 31: Global Low Carbon Hydrogen Market by Production; 2020-2050 (Million Metric Tons)
• Figure 32: Asia Pacific Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 33: Asia Pacific Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 34: Asia Pacific Hydrogen Market by Region; 2023 (Percentage, %)
• Figure 35: China Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 36: China Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 37: China Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 38: China Hydrogen Market by Production; 2020-2050 (Million Metric Tons)
• Figure 39: India Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 40: India Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 41: India Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 42: Japan and Korea Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 43: Japan and Korea Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 44: Japan and Korea Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 45: Australia Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 46: Australia Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 47: Rest of Asia Pacific Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 48: Rest of Asia Pacific Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 49: North America Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 50: North America Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 51: North America Hydrogen Market by Region; 2023 (Percentage, %)
• Figure 52: North America Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 53: North America Hydrogen Market by Production; 2020-2050 (Million Metric Tons)
• Figure 54: The US Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 55: The US Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 56: The US Hydrogen Market by Technology; 2023 (Percentage, %)
• Figure 57: The US Hydrogen Market Technology by Value; 2019-2023 (US$ Billion)
• Figure 58: The US Hydrogen Market Technology by Value; 2024-2029 (US$ Billion)
• Figure 59: Canada Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 60: Canada Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 61: Mexico Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 62: Mexico Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 63: Europe Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 64: Europe Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 65: Europe Hydrogen Market by Region; 2023 (Percentage, %)
• Figure 66: Europe Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 67: Europe Hydrogen Market by Production; 2020-2050 (Million Metric Tons)
• Figure 68: Germany Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 69: Germany Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 70: France Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 71: France Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 72: UK Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 73: UK Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 74: Rest of Europe Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 75: Rest of Europe Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 76: Rest of the World Hydrogen Market by Value; 2019-2023 (US$ Billion)
• Figure 77: Rest of the World Hydrogen Market by Value; 2024-2029 (US$ Billion)
• Figure 78: Rest of the World Hydrogen Market by Demand; 2020-2050 (Million Metric Tons)
• Figure 79: Rest of the World Hydrogen Market by Production; 2020-2050 (Million Metric Tons)
• Figure 80: Global Production Capacity of Ammonia; 2021-2030 (Million Metric Tons Per Annum)
• Figure 81: Average Annual Budget For National Subsidies Open To Low-Carbon H2 Projects Over 2022-2030 (US$ Billion)
• Figure 82: European Union Fuel Cell Hydrogen Projects Selected For First IPCEI Funding Round; 2022 (Unit)
• Figure 83: Global Number Of Hydrogen Projects Announced; 2021-2025 (Unit)
• Figure 84: Distribution Cost Of Hydrogen In Gas Or Ammonia State, Via Pipeline Over Long Distances; 2030 (US$/Kg H2)
• Figure 85: BP plc. Sales and Other Operating Revenues by Segment; 2023 (Percentage, %)
• Figure 86: Air Products and Chemicals, Inc., Sales by Operating Segments; 2024 (Percentage, %)
• Figure 87: Nel ASA Total Revenue by Operating Segments; 2023 (Percentage, %)
• Figure 88: Linde plc Sales by Operating Segments; 2023 (Percentage, %)
• Figure 89: FuelCell Energy, Inc. Revenues by Geographic Location; 2023 (Percentage, %)
• Figure 90: Iwatani Corporation Net Sales by Reportable Segments; 2024 (Percentage, %)
• Figure 91: Messer SE & Co. KGaA Revenue by Geographic Region; 2023 (Percentage, %)
• Figure 92: Air Liquide S.A. Revenue by Operating Segment; 2023 (Percentage, %)
• Figure 93: SOL Group Net Sales by Business Type; 2023 (Percentage, %)