Product Details:
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Product Name: | Ammonia Cracking | Material: | Steel |
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Color: | Bright Or Customized | Bright Or Customized: | ≤400Nm3/hr |
Dew Point: | -10℃ | Pressure: | 0.05Mpa |
Atmospheric Dew Point: | ≤-60℃ | ||
Highlight: | 93% Portable Oxygen Concentrator,Respiratory Disorders Portable Oxygen Concentrator |
Easily Storage And Transport Of Ammonia, Greenhouse Gas Emissions Will Be Reduced Of The Equipment
Product name | Ammonia Cracking |
Hydrogen delivery | ≤400Nm3/hr |
Dew point | -10℃ |
Pressure | 0.05 Mpa |
Residual ammonia | 1000ppm |
Working Principle Description:
Ammonia decomposition for hydrogen production is an important hydrogen production technology, and its working principle is as follows:
1. Reaction equation:
In the process of ammonia decomposition to produce hydrogen, ammonia gas (NH3) undergoes a decomposition reaction under appropriate conditions through the action of a catalyst, generating hydrogen gas (H ₂) and nitrogen gas (N ₂).
The reaction equation is: 2NH3 → 3H2+N2
2. Process steps:
• Catalyst function: Catalysts (such as nickel, iron, and other metals or their oxides) reduce the activation energy of the reaction and accelerate the decomposition reaction of ammonia gas.
High temperature and high pressure conditions: The reaction is usually carried out at high temperature (500-800 ° C) and appropriate pressure, which is conducive to the reaction.
• Thermal management: Reaction is an endothermic process that requires input of heat to maintain reaction conditions.
3. Working principle:
• endothermic reaction: The decomposition of ammonia is an endothermic reaction, so heat needs to be provided to promote the reaction.
• Hydrogen generation: By decomposing ammonia gas, high-purity hydrogen gas is produced, which can be used in fields such as hydrogen fuel cells.
• Nitrogen byproducts: In addition to hydrogen, the decomposition of ammonia also generates nitrogen as a byproduct.
4. Application areas:
Hydrogen energy industry: The produced hydrogen can be used in fields such as hydrogen fuel cell vehicles and hydrogen chemical industry.
Energy storage: Hydrogen can be stored and transported as a clean energy source for energy storage and conversion.
The process of ammonia decomposition for hydrogen production can efficiently produce hydrogen gas, providing important support for the development of clean energy industry and hydrogen energy technology.
Product Advantages:
● Storage and transportation: Ammonia is easier to store and transport compared to hydrogen, and can be stored and transported in conventional storage and transportation infrastructure, which reduces some of the challenges of hydrogen as an energy carrier.
●Reduce greenhouse gas emissions: Ammonia decomposition hydrogen production technology can reduce greenhouse gas emissions because it uses ammonia as a raw material, and the only byproduct produced by the combustion of hydrogen is water vapor.
●Wide applicability: The ammonia decomposition hydrogen production technology is not only suitable for industrial production, but can also be used in fields such as transportation and energy storage, with potential for extensive application prospects.
●Diversified raw materials: In addition to ammonia itself, ammonia decomposition hydrogen production technology can also use other nitrogen hydrogen compounds as raw materials, expanding the range of raw material sources and helping to reduce production costs.
Technical parameters:
● Hydrogen delivery: ≤400Nm3/hr;
● Dew point: -10℃
● Pressure: 0.05 Mpa
● Residual ammonia: 1000ppm
Product picture:
Contact Person: Jack Shi
Tel: +8615962151869
Fax: 86-512-66067218