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Low-power - 100 kW class ammonia-hydrogen/pure hydrogen fuel cell power generation equipment , based on liquid ammonia ( NH3 is used as a hydrogen storage medium, mainly including hydrogen production from ammonia decomposition and hydrogen-nitrogen mixed gas fuel . The battery has two core components. First, an ammonia decomposition catalyst produces a mixture of 75% hydrogen and 25% nitrogen. Then, after removing trace amounts of ammonia and undergoing heat exchange and cooling, the mixture enters the fuel system. The battery generates electricity, and the energy flow and power supply of the system are coordinated based on the real-time detection and control module .
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Low-power - 100 kW class ammonia-hydrogen/pure hydrogen fuel cell power generation equipment , based on liquid ammonia ( NH3 is used as a hydrogen storage medium, mainly including hydrogen production from ammonia decomposition and hydrogen-nitrogen mixed gas fuel . The battery has two core components. First, an ammonia decomposition catalyst produces a mixture of 75% hydrogen and 25% nitrogen. Then, after removing trace amounts of ammonia and undergoing heat exchange and cooling, the mixture enters the fuel system. The battery generates electricity, and the energy flow and power supply of the system are coordinated based on the real-time detection and control module .
at the same time This module is multi-fuel adaptable and compatible with pure hydrogen in addition to hydrogen and nitrogen. It provides technical solutions for pure hydrogen power generation scenarios .
Low-power - 100kW-class power generation solutions
Low-power - 100 kW class ammonia-hydrogen/pure hydrogen internal combustion power generation equipment , based on liquid ammonia ( NH3 ) is used as a hydrogen storage medium , mainly including two types: hydrogen production through ammonia decomposition and hydrogen fusion internal combustion engines. Core component. It utilizes the high-temperature waste heat exhaust gas from an internal combustion engine, highly integrating it with a low-temperature ammonia decomposition hydrogen production reactor. The ammonia reactor then decomposes ammonia into 75% hydrogen and 25% nitrogen, which, along with ammonia... After the air and gas are mixed, they enter the cylinder of the internal combustion engine, where they are ignited and burned to do work, providing power or generating electricity.
at the same time Our company's 100-kilowatt-class ammonia-hydrogen internal combustion engine has multi-fuel adaptability and is compatible with pure hydrogen, providing technical solutions for pure hydrogen power generation scenarios .
Megawatt-class power generation solutions
Megawatt-class ammonia-hydrogen power generation equipment uses liquid ammonia ( NH 3 ) As raw material, it enters the gasifier via a transfer pump and is then decomposed into a hydrogen-nitrogen mixture by an electrically heated reactor. , Heat supply for burner start-up . Liquid ammonia was then switched to the main route. , Deep decomposition in flue gas reactor The decomposed gas is cooled by a water cooler. After the compressor pressurizes , according to The residual ammonia is removed and recycled via TSA temperature-switching adsorption. , It is then separated into a high-purity hydrogen-nitrogen mixture by PSA pressure swing adsorption. . Some gas is directly supplied as fuel
Battery power generation; Another portion of the PSA vent gas enters the burner to heat the flue gas reactor. This will form a highly efficient and clean power generation system.
중성자원은 첨단 원자력 에너지 연구 개발 및 원자력 기술의 교차 응용 연구를 위한 중요한 실험 플랫폼입니다. 소형 중성자원 SNEG는 ECR 이온원의 이온화를 이용하여 중수소 이온을 생성합니다. 이 중수소 이온은 DC 고전압 전기장의 작용 하에서 중수소 이온 빔을 유도하고 표적에 대한 충돌을 가속하며, 중수소-중수소 반응을 통해 2.5MeV의 중성자를 생성합니다. 소형 중성자원은 중성자 물리학 실험 연구, 검출기 교정, 중성자 조사, 중성자 성분 검출, 중성자 사진 촬영, 중성자 암 치료, 동위원소 생산 등에 사용될 수 있습니다.
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루브리는 양극성 막 전기투석 기술에 능숙하며, 맞춤형 솔루션을 설계하고 구현하는 데 능숙하여 고객에게 포괄적인 친환경적이고 깨끗한 생산 계획을 제공합니다.
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Low-power - 100 kW class ammonia-hydrogen/pure hydrogen fuel cell power generation equipment , based on liquid ammonia ( NH3 is used as a hydrogen storage medium, mainly including hydrogen production from ammonia decomposition and hydrogen-nitrogen mixed gas fuel . The battery has two core components. First, an ammonia decomposition catalyst produces a mixture of 75% hydrogen and 25% nitrogen. Then, after removing trace amounts of ammonia and undergoing heat exchange and cooling, the mixture enters the fuel system. The battery generates electricity, and the energy flow and power supply of the system are coordinated based on the real-time detection and control module .
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IPv6 네트워크 지원
