TH40944A - Removal of carbon dioxide from gas streams - Google Patents

Abstract

Separation of carbon dioxide from the gas stream which is mainly composed of With less polarized gas than carbon dioxide by passing the gas stream into the type X zeolite with the rate Silicon atoms against aluminum Greater than approx. 1.15, where this absorbs carbon dioxide from the gas stream, this method is particularly useful when it is used for the separation of low levels of carbon dioxide from gas streams at temperatures above 20 ° C.

Claims (9)

1. The process of removing carbon dioxide from a gas stream that includes Carbon dioxide and less polar gases carbon dioxide Which includes Conduct such gas stream To do the adsorption process by the centrifugal temperature Which includes the process Sorbent and sorbent regeneration process using zeolite, type X sodium. As absorbent The ratio of silicon to aluminum atoms ranges from 1.0 to 1.15 at temperatures between -50 and 80 ํ C, and the carbon dioxide in the gas stream. It exists at sub-pressures of not more than 25 mbar and will absorb carbon dioxide from that gas stream. And produce non-absorbent gas products containing gases Which is less polar than the said carbon dioxide in a lot. 2. Method of claim No. 1, in which the adsorbent is Zeolites of type X with The silicon to aluminum atomic ratio ranges from 1.0 to 1.1. 3. Method of Clause 1, where the adsorption process is carried out at temperatures in the range of 20 ํ to 80 ํ. Any part of claim 2 or 3, in which the said gas is oxygen, nitrogen, argon, hydrogen, helium or a mixture of these substances. 5. Method of claim 1 in which carbon dioxide is contained in Such gas flows at Sub-pressure not more than 10 m. Bar. 6. Method of Clause 5 of the wrist, which the adsorbent is Type X zeolites with atomic ratios Of silicon to aluminum 1.0 7. Method of claim 3 in which carbon dioxide will be contained in such gas flows at Sub-pressure not more than 5 m bar. 8. Method of claim No. 4 The adsorption process of the said process is carried out at Temperature in the range of 30 ํ 60 ํ C 9. Method of claim No. 8, in which the gas stream is air 1 0. Clause 4 method of claim, which includes additional prior to carbon removal. Dioxides out of the gas. Removes water vapor from the gas stream by passing through the gas stream. In the sorbent selected from alumina, silica gel, zeolite and a mix of them 1 1. Method of claim 1 in which the gas stream is oxygen, nitrogen, argon, hydrogen, helium or a mixture of these substances 1. 2. The method of air separation consists of a procedure of (a) primary purification of air by introducing air into the adsorption process by Nguyen temperature Which contains carbon dioxide in such air at sub-pressures not more than 25 mbar, which consists of sorption phase and sorbent regeneration phase. By using zeolite, type X sodium It is an adsorbent with a silicon to aluminum atomic ratio of not greater than 1.15. Carbon dioxide from the air and (b) conveying the pre-purified air into cryogenic distillation. In this way, high purity nitrogen, high purity oxygen is produced. Or both of these gases 1 3. The method of claim 12 in which the adsorbent will absorb water vapor from the air as Additional section 1 4. The method of claim 12, which is supplemented before the procedure (a), is the procedure for removing water vapor from the air by passing air into the selected sorbent from alumina, silica. Gels, zeolites and their mixtures 1 5. The method of claim 12, in which the adsorption phase of the step (a) is carried out at a temperature range of 20 ํ to 80 ํ 1. 6. The method of claim No. 15 in which the aforementioned absorbent is Zeolites of type X with The atomic ratio of silicon to aluminum ranges from 1.0 to 1.1 1. 7.The method of claim 16 in which the adsorption phase of the step (a) is carried out at a temperature range of 30 ํ 60 ํ 1. 8.The method of claim 17 in which the sorbent is Zeolites of type X with Silicon to aluminum atomic ratio 1.0 1 9. The method of claim 18 in which carbon dioxide is present in such air at the pressure Sub not more than 5 m. Bar