H2-ICE Market by Vehicle Type (Trucks and Buses, Construction Equipment, Mining Equipment, Farm Tractors, Industrial Forklifts), Combustion Approach (PFI-SI, ECDI-SI, and HPDI), Power Output (<300HP, >300 HP) and Region - Global Forecast to 2035
The benefits of H2-ICE over other near-zero emission technologies are expected to drive the market. Hydrogen internal combustion engines have certain benefits over other near-zero or zero-emission technologies like battery electric vehicles and fuel cell electric vehicles. The battery weight and size are major points of concern that sharply impact the payload capacity of the vehicles. Due to this Hydrogen IC engines can turn out to be a better option for heavy commercial vehicles with their ability to manage heavy load conditions. The range for H2-ICE vehicles will also be comparatively similar to BEV and FCEV but will have the advantage of faster refuelling and also can make use of the available refuelling stations by making a few modifications for hydrogen gas. The initial costs for H2-ICEs are expected to be lower than BEVs and FCEVs by a considerable margin, making it a better choice for heavy commercial vehicles.
Scope of the Report
Years Considered for the Study
2027-2035
Base Year
2024
Forecast Period
2031-2035
Units Considered
Volume (Thousand Units) and Value (USD Million)
Segments
Vehicle Type, Combustion Approach, Power Output (<300HP, >300 HP) and Region
Regions covered
Asia Pacific, North America, and Europe
"The On-Highway vehicles are estimated to have the largest share in the H2-ICE market."
On-highway vehicles are expected to represent the largest market in the H2-ICE powertrain technology by 2030 & later years. This growth is mainly attributed to the increased demand for sustainable transportation solutions in the freight and logistics sectors. Countries such as India, China, and the US have extensive highway route networks that require long-haul trucks to travel long distances continuously with adequate performance. H2-ICE technology with engine capacity in the range of 8-10 liters will offer relatively longer driving ranges and reduced refueling capabilities. These countries have limited charging infrastructure over highways, due to which pure electric and fuel-cell trucks are not considered for long-distance running applications. As H2-ICE is based on traditional diesel engines, and hence, it is better aligned with the operational needs of fleet operators with limited additional substantial cost. Several OEMs & other stakeholders like AB Volvo (Sweden), Ashok Leyland (India), PACCAR Inc. (US), MAN (Germany), and Tata Motors Limited (India) are actively involved in the testing of these vehicles and expected to launch few commercial models from 2025 onwards. The widespread growth in the logistics & e-commerce sector surged the need for last-mile delivery and initiatives by these OEMs supported by other stakeholders to improve operational performance and hydrogen infrastructure, the market of H2-ICE in the truck segment is likely to become a reality with a promising adoption in next 3-4 years.
"Mining equipment are expected to be the promising off-highway segment for H2-ICE technology"
Mining equipment will possibly have noteworthy adoption of H2-ICE technology in some of the equipment categories such as wheel loaders and dump trucks. The transition to sustainable mining equipment from traditional diesel-powered equipment is crucial for reducing emissions and enhancing operational efficiency in hydrogen engines can play an important role in supporting this transition. Liebherr (Switzerland) is developing hydrogen engines (H966 and H964) which can be installed in heavy construction and mining equipment in later years. There is also a possibility that Off-highway equipment manufacturers design articulated dump trucks powered by hydrogen engines. At present, AB Volvo (Sweden) offers articulated dump trucks powered by fuel cells, but with the advancements in hydrogen technology, it is expected that H2-ICE engines will also be equipped with these vehicles deployed at the mining locations of Europe, and LATAM countries.
"North America is one of the prominent markets for H2-ICE technology."
North America is likely to have substantial market adoption for H2-ICE vehicles mainly for the heavy trucking application. The region is known for its developments and research in H2-ICE technology with Cummins as a front runner followed by PACCAR and Allison Transmission among other stakeholders. In the US, a Class 8 long haul truck is the primary evaluation candidate for an H2-ICE powertrain with a range of 500 miles. The region also has the presence of a few component and technology developers for the H2-ICE. These include PHINIA Inc. (US), and BorgWarner Inc. (US), these companies are developing fuel injection technologies focused on hydrogen engines. The widespread landscape of the US and Canada has generated opportunities in the transportation and logistics sector. As the transportation sector is one of the major contributors of greenhouse gases, the region is essentially working to find sustainable solutions to withstand the performance of traditional IC engines without impacting environmental factors, which will subsequently boost the futuristic demand for H2-ICE engines in the region.
The breakup of primary respondents
By Company: Tier 1 - 40%, OEMs -60%
By Designation: Manager - 60%, Director Level - 30%, Others - 10%
By Region: Europe - 30%, Asia Pacific - 50%, North America - 20%
The H2-ICE market will be dominated by global players, including Cummins Inc. (US), Deutz AG (US), Ashok Leyland (India), Paccar Inc. (US), AB Volvo (Sweden) HD Hyundai Infracore (South Korea), MAN (Germany), J C Bamford Excavators Ltd. (UK), Liebherr (Switzerland), KEYOU GmbH (Germany). The study includes an in-depth competitive analysis of these key players in the H2-ICE market with their company profiles, recent developments, and key market strategies.
Research Coverage
The study's primary objective is to define, describe, and forecast the H2-ICE market by volume. The study segments the H2-ICE Market By Vehicle Type (On-Highway vehicles (Trucks and Buses), Off-Highway vehicles (Construction Equipment, Mining Equipment, Farm Tractors, and Industrial Forklifts)), By Combustion Approach (PFI SI, ECDI SI, and HPDI), By Power Output (Below 300 HP, and Above 300 HP) & Region (North America, Europe, and Asia Pacific). It analyzes the opportunities offered by various market segments to the stakeholders. It tracks and analyzes competitive developments such as market ranking analysis, total cost of ownership, technology comparison, and future potential of H2-ICE Vs. BEV Vs. Diesel and other activities carried out by key industry participants.
The report provides insights on the following pointers:
Analysis of key drivers ( Stringent GHG emission norms, Government and OEMs push to develop H2-ICE and Benefits of hydrogen over other near-zero emission technologies), restraints ( storage and transpiration of H2 ), opportunities ( H2-ICE components demand would create potential market for Tier 1 Suppliers ), and challenges ( High initial costs for H2 engines and infrastructure and Challenges associated with H2 ICE engines) are fueling the demand of the H2-ICE market.
Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product & service launches in the H2-ICE market.
Market Diversification: Exhaustive information about new products & services, untapped geographies, recent developments, and investments in the H2-ICE market
Competitive Assessment: In-depth assessment of market ranking, growth strategies, and product offerings of leading players in the H2-ICE market, such as Cummins Inc. (US), Deutz AG (US), Ashok Leyland (India), Paccar Inc. (US), AB Volvo (Sweden) HD Hyundai Infracore (South Korea), MAN (Germany), J C Bamford Excavators Ltd. (UK), Liebherr (Switzerland), KEYOU GmbH (Germany).
The report showcases an in-depth analysis of the total cost of ownership between Diesel Vs. H2-ICE Vs. FCEV. It studies factors like initial costs, fuel costs, maintenance costs, and a few additional costs.
The report showcases a comparison between H2-ICE Vs. FCEV Vs. Diesel Vs. Biofuel based on load capacity, technologies associated for combustion, infrastructural requirements, emissions and fuel relations.
TABLE OF CONTENTS
1 INTRODUCTION
1.1 STUDY OBJECTIVES
1.2 MARKET DEFINITION
1.2.1 PFI-SI
1.2.2 ECDI-SI
1.2.3 HPDI
1.2.4 INCLUSIONS AND EXCLUSIONS
1.3 MARKET SCOPE
1.4 UNITS CONSIDERED
1.5 STAKEHOLDERS
2 RESEARCH METHODOLOGY
2.1 RESEARCH DATA
2.1.1 SECONDARY DATA
2.1.1.1 List of secondary sources for estimating vehicle production, sales, and market sizing
2.1.1.2 Key data from secondary sources
2.1.2 PRIMARY DATA
2.1.2.1 List of primary interview participants
2.2 MARKET SIZE ESTIMATION
2.2.1 BOTTOM-UP APPROACH
2.3 DATA TRIANGULATION
2.4 RESEARCH ASSUMPTIONS AND ASSOCIATED RISKS
2.5 RESEARCH LIMITATIONS
3 EXECUTIVE SUMMARY
3.1 H2-ICE MARKET IN ON AND OFF-HIGHWAY VEHICLES
3.2 H2-ICE IN ON-HIGHWAY VEHICLES
3.3 H2-ICE IN OFF-HIGHWAY EQUIPMENT
3.4 H2-ICE MARKET: REGIONAL ANALYSIS
3.5 H2-ICE IN CONSTRUCTION EQUIPMENT
3.6 TOTAL COST OF OWNERSHIP
4 MARKET OVERVIEW
4.1 INTRODUCTION
4.2 MARKET DYNAMICS
4.2.1 DRIVERS
4.2.1.1 Stringent GHG emission norms by governments to push OEMs to develop H2-ICE
4.2.2 RESTRAINTS
4.2.2.1 Storage limitations and transportation of hydrogen
4.2.3 OPPORTUNITIES
4.2.3.1 Increasing demand for key H2-ICE components
4.2.4 CHALLENGES
4.2.4.1 Issues associated with hydrogen engines
4.3 TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS
4.4 CASE STUDY ANALYSIS
4.4.1 HYDROGEN-POWERED INTERNAL COMBUSTION ENGINES: OVERCOMING CHALLENGES FOR ZERO-EMISSION VEHICLES
4.4.2 HYDROGEN-POWERED VEHICLES: PATH TOWARD SUSTAINABLE TRANSPORT
4.5 PATENT ANALYSIS
4.5.1 INTRODUCTION
4.6 INVESTMENT AND FUNDING SCENARIO
4.7 ECOSYSTEM ANALYSIS
4.8 COMPANY-LEVEL ECOSYSTEM
4.9 HIERARCHY ECOSYSTEM
4.10 REGULATORY ANALYSIS
4.10.1 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
4.11 KEY CONFERENCES AND EVENTS IN 2024-2025
4.12 H2-ICE ADOPTION ROADMAP TO 2035
4.13 HYDROGEN FUEL SUPPLY CHAIN
5 TOTAL COST OF OWNERSHIP ANALYSIS
6 H2-ICE MARKET, SUPPLY MATRIX
6.1 INTRODUCTION
6.2 IN-HOUSE (CAPTIVE) SOURCING
6.3 OUTSOURCED (NON-CAPTIVE) SOURCING
7 TECHNOLOGY COMPARISON
7.1 INTRODUCTION
8 H2-ICE MARKET, IMPACT ON ENGINE COMPONENTS
8.1 IMPACT ON ENGINE COMPONENTS, H2-ICE VS. DIESEL
9 H2-ICE MARKET, FUTURE POTENTIAL OF H2-ICE VS. BEV VS. DIESEL
9.1 FUTURE POTENTIAL OF H2-ICE VS. BEV VS. DIESEL
10 H2-ICE MARKET, BY VEHICLE TYPE
10.1 INTRODUCTION
10.2 ON-HIGHWAY VEHICLES
10.2.1 TRUCKS
10.2.1.1 Contributing to decarbonization of heavy transportation sector
10.2.2 BUSES
10.2.2.1 Europe to witness rapid adoption of hydrogen engines in buses
10.3 OFF-HIGHWAY VEHICLES
10.3.1 INTRODUCTION
10.3.2 CONSTRUCTION AND MINING EQUIPMENT
10.3.2.1 Crawler excavators and backhoe loaders to drive segmental growth
10.3.3 BACKHOE LOADERS
10.3.4 CRAWLER EXCAVATORS
10.3.5 ARTICULATED DUMP TRUCKS
10.3.6 WHEEL LOADERS
10.3.7 CONCRETE MIXERS
10.3.8 TRACTORS
10.3.8.1 Europe to lead market
10.3.9 FORKLIFTS
10.3.9.1 North America to record fastest growth
10.4 INDUSTRY INSIGHTS
11 H2-ICE MARKET, BY COMBUSTION APPROACH
11.1 INTRODUCTION
11.2 PORT FUEL INJECTION WITH SPARK IGNITION (PFI-SI)
11.3 HIGH-PRESSURE DIRECT INJECTION (HPDI)
11.4 EARLY CYCLE DIRECT INJECTION WITH SPARK IGNITION (ECDI-SI)
11.5 INDUSTRY INSIGHTS
12 H2-ICE MARKET, BY POWER OUTPUT
12.1 INTRODUCTION
12.2 BELOW 300 HP
12.3 ABOVE 300 HP
12.4 INDUSTRY INSIGHTS
13 H2-ICE MARKET, BY REGION
13.1 INTRODUCTION
13.2 ASIA PACIFIC
13.2.1 CHINA
13.2.1.1 To be largest market by 2035
13.2.2 INDIA
13.2.2.1 Financial incentives to boost green hydrogen production
13.2.3 SOUTH KOREA
13.2.3.1 Significant government funding to support hydrogen infrastructure development initiatives
13.2.4 JAPAN
13.2.4.1 Construction of network of hydrogen refueling stations to drive market
13.3 EUROPE
13.3.1 GERMANY
13.3.1.1 Implementation of Euro 6 emission standards to drive market
13.3.2 FRANCE
13.3.2.1 Aim to reduce industrial emissions through hydrogen utilization to drive market
13.3.3 UK
13.3.3.1 Investments in hydrogen refueling stations to drive market
13.3.4 SPAIN
13.3.4.1 Goal to establish vast network of hydrogen refueling stations to drive market
13.4 NORTH AMERICA
13.4.1 US
13.4.1.1 Initiatives to curb emissions from long-haul trucks to drive market
13.4.2 CANADA
13.4.2.1 Efforts to achieve net-zero emissions by 2050 to drive market
13.5 INDUSTRY INSIGHTS
14 COMPETITIVE LANDSCAPE
14.1 OVERVIEW
14.2 KEY PLAYER STRATEGIES/RIGHT TO WIN, 2020-2024
14.3 MARKET RANKING ANALYSIS, 2024
14.4 FINANCIAL METRICS
14.5 BRAND/PRODUCT COMPARISON
14.6 COMPETITIVE SCENARIO
14.6.1 DEVELOPMENTS, 2021-2024
14.7 SUPPLIER ANALYSIS
14.8 OTHER TECHNOLOGY/COMPONENT PROVIDERS
14.8.1 ROBERT BOSCH GMBH
14.8.2 EATON
14.8.3 GARRETT MOTION INC.
14.8.4 FORVIA SE
14.8.5 MAHLE GMBH
15 COMPANY PROFILES
15.1 KEY PLAYERS
15.1.1 CUMMINS INC.
15.1.1.1 Business overview
15.1.1.2 Recent developments
15.1.2 DEUTZ AG
15.1.2.1 Business overview
15.1.2.2 Recent developments
15.1.3 ASHOK LEYLAND
15.1.3.1 Business overview
15.1.3.2 Recent developments
15.1.4 PACCAR INC.
15.1.4.1 Business overview
15.1.4.2 Recent developments
15.1.5 AB VOLVO
15.1.5.1 Business overview
15.1.5.2 Recent developments
15.1.6 HD HYUNDAI INFRACORE
15.1.6.1 Business overview
15.1.6.2 Recent developments
15.1.7 MAN
15.1.7.1 Business overview
15.1.8 J C BAMFORD EXCAVATORS LTD.
15.1.8.1 Business overview
15.1.8.2 Recent developments
15.1.9 LIEBHERR
15.1.9.1 Business overview
15.1.9.2 Recent developments
15.1.10 KEYOU GMBH
15.1.10.1 Business overview
15.1.10.2 Recent developments
16 FINAL TAKEAWAYS AND RECOMMENDATIONS
16.1 H2-ICE MARKET FOR ON-HIGHWAY VEHICLES TO GAIN TRACTION
16.2 PFI-SI COMBUSTION TECHNOLOGY TO GAIN TRACTION IN H2-ICE MARKET
16.3 EUROPE TO BE PROMISING H2-ICE MARKET IN SHORT TERM
