The absorption and purification method is realized by using the physicochemical absorption characteristics of organic amine solution (primary amine, secondary amine, tertiary amine, steric amine, etc.) and carbon dioxide, that is, it reacts with carbon dioxide in biogas under pressure and normal temperature in the absorption tower to decarbonize and purify methane, and absorb the decompression and purification of rich liquid in the regeneration tower The reverse analytical reaction occurs under heating conditions to release high-purity carbon dioxide gas. At the same time, the rich liquid is regenerated and has the ability to re absorb carbon dioxide, so as to realize the continuous decarburization and purification of methane in the absorption tower, and make the decarburized liquid carry out continuous absorption and regeneration cycle.
PSA purification method uses the selective adsorption characteristics of adsorbents (such as molecular sieves) for carbon dioxide, that is, carbon dioxide has a higher separation coefficient than other gaseous components on the adsorbent to achieve the purpose of removing carbon dioxide from biogas. During the adsorption process, the carbon dioxide in the feed gas is adsorbed in the adsorption tower under pressurized conditions, and other weakly adsorbed gases such as methane are discharged as purified gas. When the adsorption is saturated, the adsorption column is depressurized or even vacuumized to release the adsorbed carbon dioxide. In order to ensure the continuous treatment of gas, PSA requires at least two adsorption towers, or three towers, four towers or more.
Low temperature condensation purification method uses the characteristics of high liquefaction temperature of carbon dioxide to liquefy carbon dioxide in biogas through low temperature, and methane component is discharged as non condensable gas to purify product gas. In order to reduce operation energy consumption, regenerative technology is usually used to recover the remaining cooling capacity.
The membrane separation and purification method is realized by using the different permeability of different gas components through the membrane under pressure. Generally, the penetration rate of carbon dioxide is fast, which is discharged as fast gas through gas, and the penetration rate of methane is slow. As slow gas, purified product gas is obtained in the form of residual gas. In engineering, multistage membrane separation process is often used to improve the concentration of methane.
企業(yè)二維碼
2022-01-02
魯公網(wǎng)安備37011202000764號號