TH13741B - Adsorbent for separating nitrogen from the fed gas. - Google Patents

Abstract

Adsorbent for separating nitrogen from feed gas Containing at least other gases One type whose molecular size is equal to or larger than methane. The absorbent material consists of clynopthilolite. The presence of at least 17 percent of sodium ions is equivalent to the total convertible cation ions, and may be chosen to contain one or more of the wavelenitic cation ions, which, if present, are in amounts less than 12 percent. The rest, if any, will be one or more non-sodium cationic cation ions.

Claims (1)

1.The process for separating nitrogen from feed gases Containing other gases like At least one that has the same molecular size Or larger than methane The process consists of the contact of the feed gas with the clinopthilolite absorbent material. To prepare the gas produced with the proportion of Nitrogen compared to other or lower gases in the feed gas. Sorbent material containing sodium content Ions fall within the 17 to 95 percent equivalence range of all ion-exchangeable cation ions, and may choose to contain one or more weleny cation ions, which, if present, contain less than 12 in total. Equivalent percentage of all remaining ion-exchangeable cation ions, if any. It is caused by one or more non-sodium cation ions and containing sorbents. 1) The rate selection for nitrogen. The superior methane exceeds 5 after 25 s, as defined as Rt = Qn / Qm, where Rt = qualitative selection at time t and Qn, Qm = amount of nitrogen and methane absorbed at time t accordingly. No. 2) Adsorption capacity of at least 0.2 mol / kg of nitrogen in 25 s, and 3) Operating capacity with nitrogen in excess of 1.2 mol / kg, as defined as Qw = (capture N2 at Pressure 10 bar) - (capture N2 at a pressure of 0.1 bar), where Qw is the operating capacity. 2. Process according to claim 1, in which the content of sodium ions is within the range of 26 to 80 percent of the equivalent of all exchangeable cation ions. One that does not Yes, that sodium is one ion. Or more as follows: H +, NH4 +, K +, Li +, Rb +, and Ce +. 4. The process of claim 1 consists of additional clinopthilolite absorbent material. Get rehabilitation (regenerating) by bringing the said absorbent material 5. Process of claim 1, in which the sodium ion content is within the range of 26 to 80 percent equivalent of all ion-exchangeable cation ions. The superior methane exceeds 5 after 25 s, as defined as Rt = Qn / Qm, where Rt = qualitative selection at time t and Qn, Qm = amount of nitrogen and methane absorbed at time t accordingly. No. 2) minimum adsorption capacity 0.2 mol / kg Of nitrogen in 25 s and 3) operating capacity with nitrogen in excess of 1.2 mol / kg, as defined as Qw = (N2 capture at 10 bar pressure) - (N2 capture at 0.1 bar). Where Qw is the operating capacity 7. Sorbent material as requested in claim 6, where the sodium ion content is within the range of 26 to 80 percent equivalent of all ion-exchangeable cation ions. According to claim 6, where a non-sodium cationic ion is one type The following or more: H +, NH4 +, K +, Li +, Rb + and Ce +. 9. The process for the production of absorbent materials. For the separation of nitrogen from feed gases containing at least one other gas of the same molecular size Or larger than methane, that process consists of The introduction of clinopthilolite to at least one ion exchange with a wavelen cation-charged solvent. To produce clinopthilolite with sodium ions content Within the range 17 to 95 percent the equivalent of all ion-exchangeable cation ions. And may choose to have one or more of the welen cation ions, which, if any, would exist. In total quantities less than 12 percent the equivalent of all the cation-exchanged cation ions, the remainder, if any, are one or more non-sodium cation ions, and the sorbent containing 1). Select the rate for superior nitrogen, methane over 5 after 25 s, as defined as Rt = Qn / Qm, where Rt = a rate selection at time t and Qn, / Qm = amount of nitrogen and methane at Is absorbed time t, respectively; 2) The adsorption capacity is at least 0.2 mol / kg of nitrogen in 25 s, and 3) the operating capacity with nitrogen in excess of 1.2 mol / kg as defined as Qw = (capture N2 at Pressure 10 bar) - (N2 capture at a pressure of 0.1 bar) where Qw is the operating capacity of 1 0. Process according to clin-nop disclaimer 9 in which the clin-nop sodium ion content Tilolite is within the range of 26 to 80 percent equivalent to all ion-exchangeable cation ions. 1. The process as requested holds the right to claim 9 in which one of the wavelengths is not Yes, that sodium is one ion. Or more as follows; H +, NH4 +, K +, Li +, Rb +, and Ce +.