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沼氣提純生物天然氣技術介紹

1、沼氣特性

1. Characteristics of biogas
沼氣是一種混合氣體,其組成不僅取決于發酵原料的種類及其相對含量,而且隨發酵條件及發酵階段的不同而變化。當沼氣厭氧反應器處于正常穩定發酵階段時,沼氣的體積組成大致為:甲烷(CH4)50%~75%,二氧化碳(CO2)25%~45%,水(H2O,20~40℃下)2%~7%,氮氣(N2)0~2%,少量的氧氣(O2),以及少于1%的氫氣(H2)和硫化氫(H2S)。
Biogas is a kind of mixed gas. Its composition depends not only on the type and relative content of fermentation materials, but also on the fermentation conditions and fermentation stages. When the biogas anaerobic reactor is in the normal and stable fermentation stage, the volume composition of biogas is roughly 50% - 75% of methane (CH4), 25% - 45% of carbon dioxide (CO2), 2% - 7% of water (H2O, at 20 - 40 ℃), 0 - 2% of nitrogen (N2), a small amount of oxygen (O2), and less than 1% of hydrogen (H2) and hydrogen sulfide (H2S).
與其它可燃氣體相比,沼氣具有抗爆性良好和燃燒產物清潔等特點。目前,沼氣主要應用在發電、供熱和炊事方面,沼氣中的CO2降低了沼氣的能量密度和熱值,限制了沼氣的利用范圍,要去除沼氣中的CO2、H2S 和水蒸氣等將沼氣提純為生物天然氣(BNG)。生物天然氣可壓縮用于車用燃料(CNG)、熱電聯產(CHP)、并入天然氣管網、燃料電池以及化工原料等領域。汽車使用生物天然氣不僅可以降低尾氣排放造成的空氣污染,而且溫室氣體的凈排放量減少75%~200%,生物天然氣可混入現有的天然氣管網,降低對石化能源的依賴。
Compared with other combustible gases, biogas has the characteristics of good explosion resistance and clean combustion products. At present, biogas is mainly used in power generation, heating and cooking. The CO2 in biogas reduces the energy density and calorific value of biogas, and limits the utilization range of biogas. It is necessary to remove CO2, H2S and water vapor in biogas to purify biogas into biological natural gas (BNG). Biogas can be compressed and used in the fields of vehicle fuel (CNG), cogeneration (CHP), integration into natural gas pipeline network, fuel cell and chemical raw materials. The use of biological natural gas in automobiles can not only reduce the air pollution caused by tail gas emissions, but also reduce the net emissions of greenhouse gases by 75% to 200%. Biological natural gas can be mixed into the existing natural gas pipeline network, reducing the dependence on petrochemical energy.
2、沼氣提純技術
2. Biogas purification technology
目前填埋氣提純工藝有變壓吸附法(PSA)、水洗法、化學吸收法、膜分離法、選擇分離法等,在目前世界范圍內工藝較為成熟、應用相對較多的方法是變壓吸附法(PSA)、化學吸收法(胺法凈化)、膜分離法。
At present, the purification processes of landfill gas include pressure swing adsorption (PSA), water washing, chemical absorption, membrane separation, selective separation, etc. At present, the more mature and widely used methods in the world are pressure swing adsorption (PSA), chemical absorption (amine purification), and membrane separation.
沼氣提純
2.1變壓吸附法(PSA)
2.1 Pressure swing adsorption (PSA)
變壓吸附法(PSA)是在加壓條件下,利用沼氣中的CH4、CO2以及N2在吸附劑表面被吸附的能力不同而實現分離氣體成分的一種方法。組分的吸附量受壓力及溫度的影響,壓力升高時吸附量增加,壓力降低時吸附量減少;當溫度升高時吸附量減小,溫度降低時吸附量增加。變壓吸附對氣體來源的要求非常嚴格,H2S的存在會導致吸附劑永久性中毒,并且變壓吸附要求氣體干燥,所以變壓吸附前要先脫除H2S和H2。
Pressure swing adsorption (PSA) is a method to separate gas components under pressure by using the different adsorption capacities of CH4, CO2 and N2 in biogas on the adsorbent surface. The adsorption capacity of components is affected by pressure and temperature. The adsorption capacity increases when the pressure increases, and decreases when the pressure decreases; The adsorption capacity decreases when the temperature increases, and increases when the temperature decreases. PSA has very strict requirements on the gas source. The presence of H2S will cause permanent poisoning of the adsorbent, and PSA requires gas drying, so H2S and H2 must be removed before PSA.
吸附材料在該技術中起到關鍵的作用,一般采用不同類型的活性炭、沸石、硅膠、氧化鋁和分子篩作為吸附材料。不同的吸附材料對沼氣的純化效果各不相同。目前,以活性炭和分子篩為主的碳基吸附劑,在研究沼氣提純方面經常被使用。近年來出現的一些新型吸附材料,如有序介孔材料、胺修飾吸附劑和金屬框架物(MOFs)對CO2具有很高吸附選擇性,應用前景廣闊,而且MOFs被認為是在CO2分離方面具潛力。
Adsorption materials play a key role in this technology. Generally, different types of activated carbon, zeolite, silica gel, alumina and molecular sieve are used as adsorption materials. Different adsorption materials have different purification effects on biogas. At present, carbon-based adsorbents, mainly activated carbon and molecular sieve, are often used in the research of biogas purification. In recent years, some new adsorption materials, such as ordered mesoporous materials, amine modified adsorbents and metal frameworks (MOFs), have high adsorption selectivity for CO2, and have broad application prospects, and MOFs are considered to have the most potential in CO2 separation.
2.2化學吸收法
2.2 Chemical absorption method
化學吸收法是利用胺溶液將CO2從CH4中分離的方法,分離過程中CO2被吸收后進一步與胺溶液發生化學反應,通過加熱完成胺溶液的再生。由于化學反應具有很強的選擇性,而CH4被胺溶液吸收的量又非常低,所以這種方法CH4的損失率低于0.1%。該技術操作壓力一般為1atm。
Chemical absorption method is a method that uses amine solution to separate CO2 from CH4. During the separation process, CO2 is absorbed and then chemically reacts with amine solution to complete the regeneration of amine solution by heating. Because the chemical reaction has strong selectivity and the amount of CH4 absorbed by amine solution is very low, the loss rate of CH4 in this method is less than 0.1%. The operating pressure of this technology is generally 1 atm.
常用的胺溶液主要有乙醇胺(MEA)、二乙醇胺(DEA)和甲基二乙醇胺(MDEA)[13]。由于CO2被吸收后與胺溶液發生了化學反應,因此吸收過程可以在較低的壓力條件下進行,一般情況下只需在沼氣已有壓力的基礎上稍微提高一些壓力即可。胺溶液的再生過程比較困難,需要160℃的溫度條件,因此運行過程需要消耗大量的工藝用熱,存在運行能耗高的弊端。此外,由于存在蒸發損失,運行過程需要經常補充胺溶液。
The commonly used amine solutions mainly include ethanolamine (MEA), diethanolamine (DEA) and methyldiethanolamine (MDEA) [13]. Since CO2 is absorbed and chemically reacts with amine solution, the absorption process can be carried out at a lower pressure. Generally, it is only necessary to slightly increase the pressure on the basis of the existing pressure of biogas. The regeneration process of amine solution is relatively difficult, requiring 160 ℃ temperature conditions, so the operation process needs to consume a large amount of process heat, which has the disadvantage of high operation energy consumption. In addition, due to evaporation loss, amine solution needs to be supplemented frequently during operation.
2.3膜分離法
2.3 Membrane separation method
膜技術被認為是21世紀工業技術改造中的一項極為重要的技術,有專家指出:誰掌握了膜技術誰就掌握了化學工業的明天。膜分離法原理是利用各氣體組分在膜表面的吸附能力不同,溶解、擴散速率不同,在膜兩側分壓差的推動下,大部分CO2等組分和少量的CH4透過膜壁進入滲透側分離出去,大部分CH4在高壓側作為生物天然氣輸出。
Membrane technology is considered to be an extremely important technology in the industrial technological transformation in the 21st century. Some experts pointed out that whoever masters membrane technology will master the future of chemical industry. The principle of membrane separation method is to make use of the different adsorption capacity of each gas component on the membrane surface and the different dissolution and diffusion rates. Under the promotion of the partial pressure difference on both sides of the membrane, most of the components such as CO2 and a small amount of CH4 enter the permeation side through the membrane wall for separation, and most of CH4 is exported as biological natural gas at the high pressure side.

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