CO2 dehydrogenation catalyst

Dehydrogenation catalyst  for the purification of carbon dioxide feed gas in synthetic urea

Contact our experts

Dehydrogenation catalysts containing various rare earth elements (Pt, Pd active compositions) for the purification of CO2 feed gas in synthetic urea

Dehydrogenation Catalyst-Factory

Synthetic urea is the process of synthesizing urea under high pressure and temperature using ammonia and carbon dioxide as raw materials. Urea production is based on coal, natural gas and heavy oil as raw materials. The CO2 feed gas for urea synthesis contains a certain amount of CO, H2, CH4, N2 and sulfide, etc. The presence of explosive gases such as H2, CO and CH4 is the biggest safety hazard for urea production. The use of catalytic combustion method to make the hydrogen in the CO2 raw material and the reaction to generate water is an effective measure to prevent the urea plant explosion.

As a supplier of catalysts for the dehydrogenation of carbon dioxide gas for urea synthesis, we offer high quality products with excellent performance and reliability. Our catalysts can withstand harsh operating conditions and provide optimum performance over a long period of time.

Dehydrogenation Catalyst-Factory

Our CO2 dehydrogenation catalysts for urea production include:

We offer high performance dehydrogenation catalysts

  • High dehydrogenation activity;
  • Good resistance to sulphur and CO;
  • Good sulphur resistance reversibility;
  • High mechanical strength;
  • Good thermal stability.

We offer custom solutions and technical support to meet the unique needs of our customers in the urea production industry. With our expertise in catalyst technology and a commitment to quality, we are a trusted partner for your urea production needs.

Contact An Expert

Any questions you need answered? Our expert team is here to offer assistance and support whenever you require it.

Contact our experts

For more information about our products, please contact our experts. We look forward to hearing from you.