H-25系列燃气轮机
三菱重工:100%直接使用氨:开发40,000 kW级的燃气轮机
2021年3月1日
三菱重工:
◆通过建立100%氨直接燃烧技术,为燃料氨供应链的建设做出贡献
◆可以在工业领域和偏远的岛屿上建议中小型发电厂和脱碳菜单。
三菱动力:
脱碳的动力正在增加。
我们已经开始“开发一个40,000 kW级的燃气轮机系统,该系统直接使用100%的氨(NH3)作为燃气轮机发电的燃料”。
氨燃烧的40,000 kW级燃气轮机:
仅使用氨的燃烧方法在使用燃料时不会产生二氧化碳。
实现无碳发电:
未来,我们旨在通过燃烧测试使其在2025年后投入实际使用。
“氨直接燃烧燃气轮机在这种产量规模上的实际应用”在世界上是空前的。
处理NOx是一个问题:
在氨的直接燃烧中,燃料中的氮被燃烧氧化。
处理产生的氮氧化物(NOx)是最重要的问题。
使用H-25型燃气轮机(40,000千瓦级)技术
我们的H-25型燃气轮机(40,000千瓦级)在世界范围内具有丰富的运行结果。
“利用该技术开发NOx减排和燃烧室”
“燃气轮机系统与脱硝设备相结合”
我们旨在将其投入实际使用。
三菱重工有限公司
https://prtimes.jp/main/html/rd/p/000000208.000025611.html
Mitsubishi Power, Ltd. | Mitsubishi Power Commences Development of World's First Ammonia-fired 40MW Class Gas Turbine System
— Targets to Expand Lineup of Carbon-free Power Generation Options, with Commercialization around 2025 —
2021-03-01
・ Utilizing technology that enables 100% direct combustion of ammonia will contribute to formation of ammonia fuel supply chain
・ Commercialization will also support decarbonization systems for small to medium-scale power plants in industrial applications, on remote islands, etc.
YOKOHAMA, JAPAN (March 1, 2021) – Mitsubishi Power, a subsidiary of Mitsubishi Heavy Industries (MHI) Group,
has commenced development of a 40-megawatt (MW) class gas turbine that is fueled by 100% ammonia (NH3).
The project was started in response to the increasing global focus on decarbonization.
As firing of ammonia produces no carbon dioxide (CO2), carbon-free power generation is achieved.
Going forward, after combustion and other testing, Mitsubishi Power is targeting commercialization in or around 2025.
When achieved, it will mark the world’s first commercialized gas turbine to make exclusive use of ammonia as fuel in a system of this scale,
and will aid in the promotion of decarbonization of small to medium-scale power stations for industrial applications, on remote islands, etc.
Developing a method for directly combusting ammonia will further expand Mitsubishi Power’s lineup of carbon-free power generation systems.
A challenge needing to be addressed with direct combustion of ammonia
is the production of nitrogen oxide (NOx) caused by oxidation resulting from the combustion of the nitrogen component of the fuel.
H-25 Series gas turbines (40MW class)
Mitsubishi Power is aiming to resolve this issue through commercialization of a gas turbine system that combines selective catalytic reduction (SCR) with a newly developed combustor that reduces NOx emissions,
for installation in the Company’s H-25 Series gas turbines (output: 40MW class), which has a rich operational track record spanning the globe.