TH37301B - Methods and devices for the purification of carbon dioxide feeders - Google Patents

Abstract

DC60 was revealed to mean Carbon Dioxide Purification and Purification Equipment The pure carbon dioxide includes (i) the adsorption step for the quantitative separation of the hydrocarbons from the CO feed gas to reduce the caloric value of the feed stream, and ii) the catalytic oxidation step is mounted at the back of the adsorption stage for Separation of residual hydrocarbons from feed gas by catalytic oxidation. revealed means Carbon Dioxide Purification and Purification Equipment The pure carbon dioxide includes (i) the adsorption step for the quantitative separation of the Hydrocarbons from carbon dioxide feed gas to reduce calories of the feed stream, and ii) the catalytic oxidation stage is mounted at the rear of the adsorption stage for Separation of residual hydrocarbons from feed gas by catalytic oxidation.

Claims (8)

Disclaimers (all) that will not appear on the advertisement page: 1. The process for feed gas purification consisting of at least 95% weight of carbon dioxide and subsequently comprised hydrocarbon contaminants, in which the process It includes the steps of: (i) Adsorption of hydrocarbons from such feed gases to the extent corresponding to their reduction. Of the calorie content of the feed gas, whereby the product gas stream produced at this stage can Was oxidized by a catalyst in a single catalytic oxidation reactor, and (ii) oxidized the hydrocarbons by the catalyst left in the gas stream produced in the (i) phase. 2. The process is mentioned in claim number 1, whereby the absorption process reduces the calorie Of feed gas to below 18 BTU per standard cubic foot 3. The process is mentioned in claim No. 1, whereby the absorption process reduces the calorie value. Of feed gas to below 12 BTU per standard cubic foot 4. The process is mentioned in claim No. 1 by the concentration of non-methane. Hydrocarbons in the feed gas are reduced to less than 20 ppm (v) - (expressed as methane) - by the process. Catalytic oxidation 5. The process is referred to in claim No. 1, whereby the aforementioned absorption process and The catalytic oxidation of both processes separated approximately 80% to 100% of hydrocarbons from the feed gas. 6. The process referred to in claim 1, with the remaining hydrocarbons in the gas stream. Produced in step (i) is oxidized with catalyst in just one reaction from the catalyst. 7. The process is referred to in claim 1, where the gas stream is produced in step (i) with a sufficiently high calorie value that the catalyst oxidation can be carried out spontaneously. 8. The process is referred to in claim 1, which later includes The calorie content of the gas flow, which is produced in step (i) and in response to the Calories that are measured Which adjusts the percentage of the said feed gas from the hydrocarbons absorbed so that The caloric value of the gas stream fed to the oxidation phase with the catalyst (ii) is constant.