Efficient catalytic hydrogenation of furfural to produce 2-methylfuran, with high selectivity and stability, suitable for the synthesis of fine chemicals.
Highly efficient catalytic conversion of CO at low temperatures to H2 and CO2, suitable for gas purification and ammonia synthesis processes, with excellent activity and stability.
Efficient catalytic synthesis of glycols (such as ethylene glycol) with high selectivity and stability, applicable to the coal chemical and petrochemical industries.
Highly efficient catalytic hydrogen production from methanol, with high activity and stability, suitable for fuel cells and industrial gas production.
Highly efficient catalytic synthesis of methanol, suitable for low-pressure synthesis processes, with high activity and selectivity.
Efficiently catalyzes the dehydrogenation of sec-butyl alcohol to produce methyl ethyl ketone, exhibiting high activity and stability, suitable for the synthesis of fine chemicals.
Highly efficient catalytic hydrogenation of benzene to cyclohexane, with high selectivity and stability, applicable to petrochemical and fine chemical production.
Highly efficient catalytic synthesis of methane from CO and Hz, applicable to natural gas production and carbon capture and storage (CCUS)
This catalyst is suitable for high-CO conversion reactions in hydrogen production and ammonia synthesis processes using various raw materials such as natural gas, coke oven gas, refinery gas, and coal.
This catalyst is produced using a novel process technology involving nitric acid method and co-precipitation, which has the following advantages:
There is no need to release sulfur gas separately, which greatly shortens the reduction time;
It has high strength, and its strength does not decrease significantly after reduction.
It has a high conversion rate, good thermal stability, and a wide operating temperature range.
This catalyst is specifically used for the gas-phase, fixed-bed dehydrogenation of 1,4-butanediol to produce r-butyrolactone. The catalyst is a copper-zinc low-chrome catalyst, improved with rare earth elements. It does not require repeated regeneration, and its normal single-cycle service life can reach 10,000 hours. It has a high single-pass conversion rate (≥99%) and good selectivity (≥98%).
