According to this study, the global Low-Temperature Ammonia-To-Hydrogen Technology market size will reach US$ 752 million by 2031.

Low-Temperature Ammonia Cracking for Hydrogen Production is a process that decomposes ammonia (NH₃) into hydrogen (H₂) and nitrogen (N₂) at relatively lower temperatures. This method relies on advanced catalysts to reduce the reaction temperature while maintaining high hydrogen yield and energy efficiency. Compared to conventional high-temperature cracking, the low-temperature approach offers advantages such as reduced energy consumption, less demanding material requirements, and faster system startup. It is especially suitable for decentralized hydrogen production, portable energy systems, and clean energy supply in carbon-neutral applications, making it a key emerging technology in the green hydrogen sector.

LPI (LP Information)' newest research report, the “Low-Temperature Ammonia-To-Hydrogen Technology Industry Forecast” looks at past sales and reviews total world Low-Temperature Ammonia-To-Hydrogen Technology sales in 2024, providing a comprehensive analysis by region and market sector of projected Low-Temperature Ammonia-To-Hydrogen Technology sales for 2025 through 2031. With Low-Temperature Ammonia-To-Hydrogen Technology sales broken down by region, market sector and sub-sector, this report provides a detailed analysis in US$ millions of the world Low-Temperature Ammonia-To-Hydrogen Technology industry.

This Insight Report provides a comprehensive analysis of the global Low-Temperature Ammonia-To-Hydrogen Technology landscape and highlights key trends related to product segmentation, company formation, revenue, and market share, latest development, and M&A activity. This report also analyses the strategies of leading global companies with a focus on Low-Temperature Ammonia-To-Hydrogen Technology portfolios and capabilities, market entry strategies, market positions, and geographic footprints, to better understand these firms’ unique position in an accelerating global Low-Temperature Ammonia-To-Hydrogen Technology market.

This Insight Report evaluates the key market trends, drivers, and affecting factors shaping the global outlook for Low-Temperature Ammonia-To-Hydrogen Technology and breaks down the forecast by Type, by Application, geography, and market size to highlight emerging pockets of opportunity. With a transparent methodology based on hundreds of bottom-up qualitative and quantitative market inputs, this study forecast offers a highly nuanced view of the current state and future trajectory in the global Low-Temperature Ammonia-To-Hydrogen Technology.

This report presents a comprehensive overview, market shares, and growth opportunities of Low-Temperature Ammonia-To-Hydrogen Technology market by product type, application, key players and key regions and countries.

Segmentation by Type:

    Cracker

    Catalyst

Segmentation by Application:

    Ship

    Automobile

    Others

This report also splits the market by region:

    Americas

    United States

    Canada

    Mexico

    Brazil

    APAC

    China

    Japan

    Korea

    Southeast Asia

    India

    Australia

    Europe

    Germany

    France

    UK

    Italy

    Russia

    Middle East & Africa

    Egypt

    South Africa

    Israel

    Turkey

    GCC Countries

The below companies that are profiled have been selected based on inputs gathered from primary experts and analyzing the company's coverage, product portfolio, its market penetration.

    H2SITE

    AFC Energy

    KBR

    Johnson Matthey

    Topsoe

    Metacon

    Heraeus

    Clariant

    Amogy

    Starfire Energy​​

1 Scope of the Report
    1.1 Market Introduction
    1.2 Years Considered
    1.3 Research Objectives
    1.4 Market Research Methodology
    1.5 Research Process and Data Source
    1.6 Economic Indicators
    1.7 Currency Considered

2 Executive Summary
    2.1 World Market Overview
        2.1.1 Global Low-Temperature Ammonia-To-Hydrogen Technology Market Size 2025-2031
        2.1.2 Low-Temperature Ammonia-To-Hydrogen Technology Market Size CAGR by Region
    2.2 Low-Temperature Ammonia-To-Hydrogen Technology Segment by Type
        2.2.1 Cracker
        2.2.2 Catalyst
    2.3 Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Type
        2.3.1 Global Low-Temperature Ammonia-To-Hydrogen Technology Market Size Market Share by Type (2025-2031)
        2.3.2 Global Low-Temperature Ammonia-To-Hydrogen Technology Market Size Growth Rate by Type (2025-2031)
    2.4 Low-Temperature Ammonia-To-Hydrogen Technology Segment by Application
        2.4.1 Ship
        2.4.2 Automobile
        2.4.3 Others
    2.5 Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Application (2025-2031)
        2.5.1 Global Low-Temperature Ammonia-To-Hydrogen Technology Market Size Market Share by Application (2025-2031)
        2.5.2 Global Low-Temperature Ammonia-To-Hydrogen Technology Market Size Growth Rate by Application (2025-2031)

3 Low-Temperature Ammonia-To-Hydrogen Technology Key Players
    3.1 Date of Key Players Enter into Low-Temperature Ammonia-To-Hydrogen Technology
    3.2 Key Players Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
    3.3 Key Players Low-Temperature Ammonia-To-Hydrogen Technology Funding/Investment Analysis
    3.4 Funding/Investment
        3.4.1 Funding/Investment by Regions
        3.4.2 Funding/Investment by End-Industry
    3.5 Key Players Low-Temperature Ammonia-To-Hydrogen Technology Valuation & Market Capitalization
    3.6 Key Players Mergers & Acquisitions, Expansion Plans
    3.7 Market Ranking
    3.8 New Product/Technology Launches
    3.9 Partnerships, Agreements, and Collaborations
    3.10 Mergers and Acquisitions

4 Low-Temperature Ammonia-To-Hydrogen Technology by Regions
    4.1 Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Regions (2025-2031)
    4.2 United States Low-Temperature Ammonia-To-Hydrogen Technology Market Size Growth (2025-2031)
    4.3 China Low-Temperature Ammonia-To-Hydrogen Technology Market Size Growth (2025-2031)
    4.4 Europe Low-Temperature Ammonia-To-Hydrogen Technology Market Size Growth (2025-2031)
    4.5 Rest of World Low-Temperature Ammonia-To-Hydrogen Technology Market Size Growth (2025-2031)

5 United States
    5.1 United States Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Type (2025-2031)
    5.2 United States Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Application (2025-2031)

6 Europe
    6.1 Europe Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Type (2025-2031)
    6.2 Europe Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Application (2025-2031)

7 China
    7.1 China Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Type (2025-2031)
    7.2 China Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Application (2025-2031)

8 Rest of World
    8.1 Rest of World Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Type (2025-2031)
    8.2 Rest of World Low-Temperature Ammonia-To-Hydrogen Technology Market Size by Application (2025-2031)
    8.3 Japan
    8.4 South Korea
    8.5 Southeast Asia

9 Market Drivers, Challenges and Trends
    9.1 Market Drivers & Growth Opportunities
    9.2 Market Challenges & Risks
    9.3 Industry Trends

10 Key Investors in Low-Temperature Ammonia-To-Hydrogen Technology
    10.1 Company A
        10.1.1 Company A Company Details
        10.1.2 Company Description
        10.1.3 Companies Invested by Company A
        10.1.4 Company A Key Development and Market Layout
    10.2 Company B
        10.2.1 Company B Company Details
        10.2.2 Company Description
        10.2.3 Companies Invested by Company B
        10.2.4 Company B Key Development and Market Layout
    10.3 Company C
        10.3.1 Company C Company Details
        10.3.2 Company Description
        10.3.3 Companies Invested by Company C
        10.3.4 Company C Key Development and Market Layout
    10.4 Company D
    10.5 ……

11 Key Players Analysis
    11.1 H2SITE
        11.1.1 H2SITE Company Details
        11.1.2 H2SITE Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.1.3 H2SITE Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.1.4 H2SITE Main Business Overview
        11.1.5 H2SITE News
    11.2 AFC Energy
        11.2.1 AFC Energy Company Details
        11.2.2 AFC Energy Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.2.3 AFC Energy Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.2.4 AFC Energy Main Business Overview
        11.2.5 AFC Energy News
    11.3 KBR
        11.3.1 KBR Company Details
        11.3.2 KBR Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.3.3 KBR Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.3.4 KBR Main Business Overview
        11.3.5 KBR News
    11.4 Johnson Matthey
        11.4.1 Johnson Matthey Company Details
        11.4.2 Johnson Matthey Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.4.3 Johnson Matthey Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.4.4 Johnson Matthey Main Business Overview
        11.4.5 Johnson Matthey News
    11.5 Topsoe
        11.5.1 Topsoe Company Details
        11.5.2 Topsoe Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.5.3 Topsoe Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.5.4 Topsoe Main Business Overview
        11.5.5 Topsoe News
    11.6 Metacon
        11.6.1 Metacon Company Details
        11.6.2 Metacon Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.6.3 Metacon Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.6.4 Metacon Main Business Overview
        11.6.5 Metacon News
    11.7 Heraeus
        11.7.1 Heraeus Company Details
        11.7.2 Heraeus Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.7.3 Heraeus Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.7.4 Heraeus Main Business Overview
        11.7.5 Heraeus News
    11.8 Clariant
        11.8.1 Clariant Company Details
        11.8.2 Clariant Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.8.3 Clariant Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.8.4 Clariant Main Business Overview
        11.8.5 Clariant News
    11.9 Amogy
        11.9.1 Amogy Company Details
        11.9.2 Amogy Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.9.3 Amogy Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.9.4 Amogy Main Business Overview
        11.9.5 Amogy News
    11.10 Starfire Energy​​
        11.10.1 Starfire Energy​​ Company Details
        11.10.2 Starfire Energy​​ Low-Temperature Ammonia-To-Hydrogen Technology Product Offered
        11.10.3 Starfire Energy​​ Low-Temperature Ammonia-To-Hydrogen Technology Market Size (2024 VS 2030)
        11.10.4 Starfire Energy​​ Main Business Overview
        11.10.5 Starfire Energy​​ News

12 Research Findings and Conclusion