Our technology has completed a laboratory prototype, proved to be feasibleworkable. The costenergy consumption are better than the commercial competitors. Now our R&D team further builds the first carbon neutral pilot plant in Taiwan with a continuous process from CO2 capture→purification→alkylation. The pilot plant has successively cooperated with high-carbon industries such as steel, petrochemical,power plants to transform the CO2/CO of flue gas into high-value green chemicals, key agricultural urea fertilizer materialsenergy storage chemicals.

"The pilot plant includes:
1. CO2 capture agent: Our agent only needs to add water to desorb CO2,the regeneration rate can reach 95. Compared with the commercial MEA, the energy consumption is reduced by ~30.

2. Hydrogen-producing amphoteric membrane: We use plasma-induced grafting of GMA-IDA monomer to both sides of a membrane with a hole structure to reduce the resistance. The efficiency is about 10-20 higher than the efficiency of Dupont＇s competitors.

3. CO2 hydrogenation catalyst: It can completely convert CO2 into C1~C3 alkanes at 200 degree temperature~1atm pressure."

Renewable energy development can eventually achieve the goal of zero-carbon electricity, but this is not enough. Many high carbon-emission industriescompanies need negative carbon emissions to neutralize the remaining carbon emissions. Our technology recycles CO2provides a huge business opportunity. Not only can it reduce carbon emissions, it can also create a CO2 recycling application chemical material industry chain. So far, we had cooperated with many steel, petrochemical, waste treatment companies, power plantsother high-carbon emission companies.

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