Compact Structure And Simple Process Of The Equipment, Ensuring The Stability Of The Working Process

Compact Structure And Simple Process Of The Equipment, Ensuring The Stability Of The Working Process

Working Principle Description:

The reaction process of ammonia decomposition for hydrogen production is described as follows:

1. Feed: High purity ammonia gas (NH3) is fed into the reaction system as raw material.

2. Catalyst: Ammonia gas comes into contact with catalysts (usually metals such as nickel, iron, or their oxides) in the reactor.

3. Decomposition reaction: Under high temperature (usually 500-800 ° C) and appropriate pressure, ammonia undergoes a decomposition reaction catalyzed by a catalyst, producing hydrogen gas (H ₂) and nitrogen gas (N ₂).

Reaction equation: 2NH3 → 3H2+N2 2NH3 → 3H2+N2

4. Thermal management: As the ammonia decomposition reaction is an endothermic process, heat input is required to maintain the temperature and rate of the reaction.

5. Product processing: The generated hydrogen and nitrogen gases are separated and collected through the system, which may require further processing to improve the purity of the hydrogen gas.

6. Utilization: High purity hydrogen can be used in fields such as hydrogen fuel cells and industrial synthesis.

7. Nitrogen by-products: In addition to hydrogen, nitrogen is also generated as a byproduct. These nitrogen gases can be used for industrial applications or discharged.

Through this reaction process, ammonia is effectively converted into hydrogen and nitrogen, providing an important technological route for clean energy production and industrial applications.

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.

●Strong anti vibration ability: Ammonia is relatively stable during storage and transportation, with a certain anti vibration ability, suitable for hydrogen production needs in some special environments and conditions.

●Sustainable development: Ammonia decomposition hydrogen production technology can help promote the transformation of the energy industry towards sustainable development, reduce dependence on traditional fossil fuels, and promote the diversification of the global energy structure.

●Renewable Energy: Ammonia decomposition hydrogen production technology can be combined with renewable energy sources such as wind and solar energy to promote the utilization of renewable energy and increase the renewable proportion of the energy system.

Technical parameters:

● Hydrogen delivery: ≤500Nm3/hr;

● Dew point: －10℃

● Pressure: 0.05 Mpa

● Residual ammonia: 1000ppm

Product picture: