MILWAUKEE, Jan. 31, 2022 /PRNewswire/ -- The "Global Hydrogen Gas Turbines Market by Design Type (Heavy Duty, Aeroderivative), Fuel Composition – %H2 (up to 20%, 20% to 60%, 60 to 100%), Turbine Type (New, Retrofit), Application (Power Generation, Oil & Gas, Other Industrial), Rated Capacity (Less than 40 MW, 40–120 MW, 120–300 MW, Above 300 MW) and Geography (North America, Europe, APAC, South America, MEA) - Forecast to 2030" report has been added to Tresus Strategy's offering.
Energy is the cornerstone of industry. As energy choices steadily increase, thermal power still remains a key energy source. Efforts have continuously been made toward reducing emissions by enhancing efficiency through technological innovation. But it doesn't change the fact that substantial CO2 is still emitted in the generation of gas-fired thermal power.
There are multiple approaches for low-carbon or carbon-free fuels, including the use of hydrogen for power generation. Modern gas turbines are capable of operating on a wide range of H2 concentrations, with multiple commercial power plants having considerable experience. Thus, gas turbines operating on hydrogen could provide the needed grid firming while at the same time generating significantly less carbon dioxide (CO2) emissions.
Companies like Mitsubishi Power, GE Power, Siemens Energy, and Ansaldo Energia to develop 100% hydrogen-fueled gas turbines have recently shifted into high gear, owing in part to new carbon reduction policies worldwide that have accelerated renewables capacity. The companies—which all manufacture large gas turbines but are jostling to sell them in a diminished market—are also actively competing for a concrete footing in future markets, including those that could thrive in a hydrogen economy.
For more information about this report visit https://tersusstrategy.com/product/global-hydrogen-gas-turbines-market-2022-2030/
The heavy duty segment is projected to lead the global hydrogen gas turbines market during the forecast period
The heavy duty (frame) segment is expected to be the largest hydrogen gas turbines market by 2030. Heavy-Duty hydrogen gas turbines have two combustor configurations capable of operating on fuels with higher H2 content. The Single Nozzle (SN) or standard combustor and the Multi-Nozzle Quiet Combustor (MNQC). Today, hydrogen levels up to ~90-100% (by volume) for applications with the MNQC combustor or single nozzle combustor are possible.
Aeroderivative gas turbines can be configured with a single annular combustor (SAC), which can operate on a variety of fuels, including process fuels and fuel blends with hydrogen. Depending on the specific Aeroderivative gas turbine model, SAC combustors can handle hydrogen concentrations from 30% (by volume) up to 85% (by volume).
The up to 20% segment is projected to lead the global hydrogen gas turbines market during the forecast period
An advantage to gas turbines is that they can be re-configured for operation on new fuels, including fuels with increased levels of hydrogen fuels. Changing to a fuel with increased levels of hydrogen may require making changes to the gas turbine, gas turbine accessories, and/or the balance of plant. The magnitude of the required changes is a function of the amount of hydrogen in the fuel.
Within pipeline gas applications, H2 will displace some portion of the natural gas in the pipeline. It is expected that the H2 content of the gas will not exceed 20% for the near future. Within the industrial process market, H2 content is greater than 20% and as high as 100%.
Several OEMs offer gas turbines which can handle H2 contents in the fuel up to 30 - 60% volume. However, no fuel flexible gas turbine that can handle pure hydrogen is nowadays commercially available, and additional R&D activities are needed to pave the way for such a technology. The development of combustion systems that can handle the full range of 0-100% hydrogen contents blended with natural gas is even more challenging, but required for potential fluctuations in future hydrogen fuel supply.
Based on region, North America is expected to account for the largest share of the hydrogen gas turbines market by 2030
At the 2021 Climate Change Summit, the leaders of major emitters announced ambitious targets for the reduction of greenhouse gas emissions by 2030. In addition, a target of virtually zero emissions by 2050 to 2060 was announced.
Each country has made progress in various areas such as the use of hydrogen in industrial fields, the introduction of hydrogen power generation, and the investigation of CO2-free hydrogen chain for the import of hydrogen.
Along with Japan, members of EUTurbines—an association of the entire gas and steam turbine sector in the European Union (EU)—in January committed to provide gas turbines that can handle 20% hydrogen by 2020, and 100% hydrogen by 2030.
For more information about this report visit https://tersusstrategy.com/product/global-hydrogen-gas-turbines-market-2022-2030/
Key Topics Covered:
1. Report Scope
1.1. Market Segmentation and scope
1.2. Regional Scope
1.3. Estimates and forecast timeline
2. Market Research Methodology
2.1. Research methodology and design
2.2. Sample selection
2.3. Reliability and validity
3. Executive Summary
4. Market Analysis
4.1. Market size and growth rates
4.2. Market growth drivers, market dynamics and trends
4.3. Market scenarios and opportunity forecasts
4.4. Market constraints and challenges
4.5. National hydrogen strategy
4.6. Industry value chain analysis
4.7. Industry analysis – Porter's
4.7.1. Threat of new entrants
4.7.2. Bargaining power of suppliers
4.7.3. Bargaining power of buyers
4.7.4. Threat of substitutes
4.7.5. Competitive rivalry
4.8. PEST analysis
4.8.1. Political/legal landscape
4.8.2. Economic landscape
4.8.3. Social landscape
4.8.4. Technological landscape
5. Market Breakdown – by Design Type
5.1. Introduction
5.2. Heavy duty
5.3. Aeroderivative
6. Market Breakdown – by Fuel Composition (% H2)
6.1. Introduction
6.2. Up to 20%
6.3. 20% to 60%
6.4. 60 to 100%
7. Market Breakdown – by Turbine Type
7.1. Introduction
7.2. New
7.3. Retrofit
8. Market Breakdown – by Rated Capacity
8.1. Introduction
8.2. Less than 40 MW
8.3. 40–120 MW
8.4. 120–300 MW
8.5. Above 300 MW
9. Market Breakdown – by Application
9.1. Introduction
9.2. Power Generation
9.3. Oil & Gas
9.4. Other Industrial
10. Market Breakdown – by Geography
10.1. North America
10.1.1. North America Hydrogen Gas Turbine Market, 2022-2028
10.1.2. North America Hydrogen Gas Turbine Market, by Design Type
10.1.3. North America Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.1.4. North America Hydrogen Gas Turbine Market, by Turbine Type
10.1.5. North America Hydrogen Gas Turbine Market, by Rated Capacity
10.1.6. North America Hydrogen Gas Turbine Market, by Application
10.1.7. North America Hydrogen Gas Turbine Market, by Country
10.1.7.1. U.S.
10.1.7.1.1. U.S. Hydrogen Gas Turbine Market, 2022-2028
10.1.7.1.2. U.S. Hydrogen Gas Turbine Market, by Design Type
10.1.7.1.3. U.S. Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.1.7.1.4. U.S. Hydrogen Gas Turbine Market, by Turbine Type
10.1.7.1.5. U.S. Hydrogen Gas Turbine Market, by Rated Capacity
10.1.7.1.6. U.S. Hydrogen Gas Turbine Market, by Application
10.1.7.2. Canada
10.1.7.2.1. Canada Hydrogen Gas Turbine Market, 2022-2028
10.1.7.2.2. Canada Hydrogen Gas Turbine Market, by Design Type
10.1.7.2.3. Canada Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.1.7.2.4. Canada Hydrogen Gas Turbine Market, by Turbine Type
10.1.7.2.5. Canada Hydrogen Gas Turbine Market, by Rated Capacity
10.1.7.2.6. Canada Hydrogen Gas Turbine Market, by Application
10.2. South America
10.2.1.1. South America Hydrogen Gas Turbine Market, 2022-2028
10.2.1.2. South America Hydrogen Gas Turbine Market, by Design Type
10.2.1.3. South America Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.2.1.4. South America Hydrogen Gas Turbine Market, by Turbine Type
10.2.1.5. South America Hydrogen Gas Turbine Market, by Rated Capacity
10.2.1.6. South America Hydrogen Gas Turbine Market, by Application
10.2.1.7. South America Hydrogen Gas Turbine Market, by Country
10.2.1.7.1. Brazil
10.2.1.7.1.1. Brazil Hydrogen Gas Turbine Market, 2022-2028
10.2.1.7.1.2. Brazil Hydrogen Gas Turbine Market, by Design Type
10.2.1.7.1.3. Brazil Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.2.1.7.1.4. Brazil Hydrogen Gas Turbine Market, by Turbine Type
10.2.1.7.1.5. Brazil Hydrogen Gas Turbine Market, by Rated Capacity
10.2.1.7.1.6. Brazil Hydrogen Gas Turbine Market, by Application
10.3. Europe
10.3.1.1. Europe Hydrogen Gas Turbine Market, 2022-2028
10.3.1.2. Europe Hydrogen Gas Turbine Market, by Design Type
10.3.1.3. Europe Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.3.1.4. Europe Hydrogen Gas Turbine Market, by Turbine Type
10.3.1.5. Europe Hydrogen Gas Turbine Market, by Rated Capacity
10.3.1.6. Europe Hydrogen Gas Turbine Market, by Application
10.3.1.7. Europe Hydrogen Gas Turbine Market, by Country
10.3.1.8. Germany
10.3.1.8.1.1. Germany Hydrogen Gas Turbine Market, 2022-2028
10.3.1.8.1.2. Germany Hydrogen Gas Turbine Market, by Design Type
10.3.1.8.1.3. Germany Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.3.1.8.1.4. Germany Hydrogen Gas Turbine Market, by Turbine Type
10.3.1.8.1.5. Germany Hydrogen Gas Turbine Market, by Rated Capacity
10.3.1.8.1.6. Germany Hydrogen Gas Turbine Market, by Application
10.3.1.9. France
10.3.1.9.1.1. France Hydrogen Gas Turbine Market, 2022-2028
10.3.1.9.1.2. France Hydrogen Gas Turbine Market, by Design Type
10.3.1.9.1.3. France Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.3.1.9.1.4. France Hydrogen Gas Turbine Market, by Turbine Type
10.3.1.9.1.5. France Hydrogen Gas Turbine Market, by Rated Capacity
10.3.1.9.1.6. Franc
10.3.1.10.1.1. U.K. Hydrogen Gas Turbine Market, 2022-2028
10.3.1.10.1.2. U.K. Hydrogen Gas Turbine Market, by Design Type
10.3.1.10.1.3. U.K. Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.3.1.10.1.4. U.K. Hydrogen Gas Turbine Market, by Turbine Type
10.3.1.10.1.5. U.K. Hydrogen Gas Turbine Market, by Rated Capacity
10.3.1.10.1.6. U.K. Hydrogen Gas Turbine Market, by Application
10.3.1.11. Russia
10.3.1.11.1.1. Russia Hydrogen Gas Turbine Market, 2022-2028
10.3.1.11.1.2. Russia Hydrogen Gas Turbine Market, by Design Type
10.3.1.11.1.3. Russia Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.3.1.11.1.4. Russia Hydrogen Gas Turbine Market, by Turbine Type
10.3.1.11.1.5. Russia Hydrogen Gas Turbine Market, by Rated Capacity
10.3.1.11.1.6. Russia Hydrogen Gas Turbine Market, by Application
10.3.1.12. Italy
10.3.1.12.1.1. Italy Hydrogen Gas Turbine Market, 2022-2028
10.3.1.12.1.2. Italy Hydrogen Gas Turbine Market, by Design Type
10.3.1.12.1.3. Italy Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.3.1.12.1.4. Italy Hydrogen Gas Turbine Market, by Turbine Type
10.3.1.12.1.5. Italy Hydrogen Gas Turbine Market, by Rated Capacity
10.3.1.12.1.6. Italy Hydrogen Gas Turbine Market, by Application
10.3.1.13. Netherlands
10.3.1.13.1.1. Netherlands Hydrogen Gas Turbine Market, 2022-2028
10.3.1.13.1.2. Netherlands Hydrogen Gas Turbine Market, by Design Type
10.3.1.13.1.3. Netherlands Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.3.1.13.1.4. Netherlands Hydrogen Gas Turbine Market, by Turbine Type
10.3.1.13.1.5. Netherlands Hydrogen Gas Turbine Market, by Rated Capacity
10.3.1.13.1.6. Netherlands Hydrogen Gas Turbine Market, by Application
10.4. Asia-Pacific
10.4.1.1. APAC Hydrogen Gas Turbine Market, 2022-2028
10.4.1.2. APAC Hydrogen Gas Turbine Market, by Design Type
10.4.1.3. APAC Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.4.1.4. APAC Hydrogen Gas Turbine Market, by Turbine Type
10.4.1.5. APAC Hydrogen Gas Turbine Market, by Rated Capacity
10.4.1.6. APAC Hydrogen Gas Turbine Market, by Application
10.4.1.7. APAC Hydrogen Gas Turbine Market, by Country
10.4.1.8. China
10.4.1.8.1.1. China Hydrogen Gas Turbine Market, 2022-2028
10.4.1.8.1.2. China Hydrogen Gas Turbine Market, by Design Type
10.4.1.8.1.3. China Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.4.1.8.1.4. China Hydrogen Gas Turbine Market, by Turbine Type
10.4.1.8.1.5. China Hydrogen Gas Turbine Market, by Rated Capacity
10.4.1.8.1.6. China Hydrogen Gas Turbine Market, by Application
10.4.1.9. Japan
10.4.1.9.1.1. Japan Hydrogen Gas Turbine Market, 2022-2028
10.4.1.9.1.2. Japan Hydrogen Gas Turbine Market, by Design Type
10.4.1.9.1.3. Japan Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.4.1.9.1.4. Japan Hydrogen Gas Turbine Market, by Turbine Type
10.4.1.9.1.5. Japan Hydrogen Gas Turbine Market, by Rated Capacity
10.4.1.9.1.6. Japan Hydrogen Gas Turbine Market, by Application
10.4.1.10. South Korea
10.4.1.10.1.1. South Korea Hydrogen Gas Turbine Market, 2022-2028
10.4.1.10.1.2. South Korea Hydrogen Gas Turbine Market, by Design Type
10.4.1.10.1.3. South Korea Hydrogen Gas Turbine Market, by Fuel Composition (% H2) 10.4.1.10.1.4. South Korea Hydrogen Gas Turbine Market, by Turbine Type
10.4.1.10.1.5. South Korea Hydrogen Gas Turbine Market, by Rated Capacity
10.4.1.10.1.6. South Korea Hydrogen Gas Turbine Market, by Application
10.4.1.11. Australia
10.4.1.11.1.1. Australia Hydrogen Gas Turbine Market, 2022-2028
10.4.1.11.1.2. Australia Hydrogen Gas Turbine Market, by Design Type
10.4.1.11.1.3. Australia Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.4.1.11.1.4. Australia Hydrogen Gas Turbine Market, by Turbine Type
10.4.1.11.1.5. Australia Hydrogen Gas Turbine Market, by Rated Capacity
10.4.1.11.1.6. Australia Hydrogen Gas Turbine Market, by Application
10.4.1.12. India
10.4.1.12.1.1. India Hydrogen Gas Turbine Market, 2022-2028
10.4.1.12.1.2. India Hydrogen Gas Turbine Market, by Design Type
10.4.1.12.1.3. India Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.4.1.12.1.4. India Hydrogen Gas Turbine Market, by Turbine Type
10.4.1.12.1.5. India Hydrogen Gas Turbine Market, by Rated Capacity
10.4.1.12.1.6. India Hydrogen Gas Turbine Market, by Application
10.5. Middle East & Africa
10.5.1.1. MEA Hydrogen Gas Turbine Market, 2022-2028
10.5.1.2. MEA Hydrogen Gas Turbine Market, by Design Type
10.5.1.3. MEA Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.5.1.4. MEA Hydrogen Gas Turbine Market, by Type
10.5.1.5. MEA Hydrogen Gas Turbine Market, by Rated Capacity
10.5.1.6. MEA Hydrogen Gas Turbine Market, by Application
10.5.1.7. Saudi Arabia
10.5.1.7.1.1. Saudi Arabia Hydrogen Gas Turbine Market, 2022-2028
10.5.1.7.1.2. Saudi Arabia Hydrogen Gas Turbine Market, by Design Type
10.5.1.7.1.3. Saudi Arabia Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.5.1.7.1.4. Saudi Arabia Hydrogen Gas Turbine Market, by Turbine Type
10.5.1.7.1.5. Saudi Arabia Hydrogen Gas Turbine Market, by Rated Capacity
10.5.1.7.1.6. Saudi Arabia Hydrogen Gas Turbine Market, by Application
10.5.1.8. UAE
10.5.1.8.1.1. UAE Hydrogen Gas Turbine Market, 2022-2028
10.5.1.8.1.2. UAE Hydrogen Gas Turbine Market, by Design Type
10.5.1.8.1.3. UAE Hydrogen Gas Turbine Market, by Fuel Composition (% H2)
10.5.1.8.1.4. UAE Hydrogen Gas Turbine Market, by Turbine Type
10.5.1.8.1.5. UAE Hydrogen Gas Turbine Market, by Rated Capacity
10.5.1.8.1.6. UAE Hydrogen Gas Turbine Market, by Application
11. Competitive Landscape
11.1. Company Market Positioning
11.2. Company Geographical Presence Analysis
11.3. Market Revenue Share Analysis (%), by Leading Players
12. Company Profiles
- Company Overview
- Financial Performance
- Product Benchmarking
- Recent Developments
12.1. GE Gas Power
12.2. Siemens Energy
12.3. Mitsubishi Power
12.4. Ansaldo Energia
12.5. Doosan Heavy Industries
12.6. Baker Hughes
12.7. MAN Energy Solutions
12.8. Solar Turbines
12.9. Kawasaki Heavy Industries, Ltd.
12.10. OPRA Turbines
Appendix
For more information about this report visit https://tersusstrategy.com/product/global-hydrogen-gas-turbines-market-2022-2030/
Media Contact:
Tersus Strategy
Kevin Matthew, Business Development Manager
[email protected]
+1 (414) 882-8941
333 W Brown Deer Rd. 53217-2372 Milwaukee Wisconsin USA
SOURCE Tersus Strategy
WANT YOUR COMPANY'S NEWS FEATURED ON PRNEWSWIRE.COM?
Newsrooms &
Influencers
Digital Media
Outlets
Journalists
Opted In
Share this article