在沼氣凈化處理領(lǐng)域，脫硫是關(guān)鍵環(huán)節(jié)，直接影響沼氣品質(zhì)與后續(xù)利用安全性。目前，生物脫硫、干法脫硫、濕法脫硫是三種主流工藝，它們基于不同原理，在應(yīng)用中各有優(yōu)劣，適用于不同場(chǎng)景需求。

　　In the field of biogas purification treatment, desulfurization is a key link that directly affects the quality and subsequent safety of biogas utilization. At present, biological desulfurization, dry desulfurization, and wet desulfurization are the three mainstream processes, which are based on different principles and have their own advantages and disadvantages in application, suitable for different scene requirements.

　　一、工藝原理差異

　　1、 Differences in Process Principles

　　沼氣生物脫硫是借助微生物的代謝活動(dòng)實(shí)現(xiàn)脫硫。在特定的厭氧或微好氧環(huán)境中，脫硫微生物以沼氣中的硫化氫為電子供體，將其氧化為單質(zhì)硫或硫酸根離子。該過(guò)程需為微生物提供適宜的溫度、pH 值和營(yíng)養(yǎng)物質(zhì)，通過(guò)生物反應(yīng)器構(gòu)建穩(wěn)定的代謝環(huán)境 。

　　Biogas desulfurization is achieved through the metabolic activity of microorganisms. In specific anaerobic or microaerophilic environments, desulfurization microorganisms use hydrogen sulfide in biogas as an electron donor to oxidize it into elemental sulfur or sulfate ions. This process requires providing suitable temperature, pH value, and nutrients for microorganisms, and constructing a stable metabolic environment through bioreactors.

　　干法脫硫則依靠固體脫硫劑與硫化氫發(fā)生化學(xué)反應(yīng)。常用的脫硫劑如氧化鐵、活性炭等，氧化鐵脫硫劑通過(guò)與硫化氫反應(yīng)生成硫化鐵，當(dāng)脫硫劑飽和后可進(jìn)行再生處理；活性炭則憑借其豐富的孔隙結(jié)構(gòu)吸附硫化氫，飽和后需更換或再生 。

　　Dry desulfurization relies on the chemical reaction between solid desulfurizer and hydrogen sulfide. Commonly used desulfurizers include iron oxide, activated carbon, etc. Iron oxide desulfurizers react with hydrogen sulfide to produce iron sulfide, which can be regenerated when the desulfurizer is saturated; Activated carbon, with its rich pore structure, adsorbs hydrogen sulfide and needs to be replaced or regenerated after saturation.

　　濕法脫硫是利用液體吸收劑在吸收塔內(nèi)與沼氣充分接觸，吸收其中的硫化氫。吸收劑分為化學(xué)吸收劑和物理吸收劑，化學(xué)吸收劑如碳酸鈉溶液，與硫化氫發(fā)生化學(xué)反應(yīng)；物理吸收劑如甲醇，依靠溶解度差異吸收硫化氫，吸收后的富液通過(guò)解吸實(shí)現(xiàn)吸收劑再生 。

　　Wet desulfurization is the process of using liquid absorbents to fully contact with biogas in an absorption tower and absorb hydrogen sulfide. Absorbents are divided into chemical absorbents and physical absorbents. Chemical absorbents, such as sodium carbonate solution, react chemically with hydrogen sulfide; Physical absorbents such as methanol rely on solubility differences to absorb hydrogen sulfide, and the absorbed rich solution is regenerated by desorption.

　　二、性能優(yōu)勢(shì)對(duì)比

　　2、 Performance advantage comparison

　　生物脫硫具有顯著的環(huán)保優(yōu)勢(shì)，反應(yīng)過(guò)程溫和，不產(chǎn)生二次污染，單質(zhì)硫可回收利用，且運(yùn)行成本較低，尤其適用于低濃度硫化氫沼氣的處理。此外，該工藝自動(dòng)化程度高，操作管理簡(jiǎn)便。

　　Biological desulfurization has significant environmental advantages, with a mild reaction process, no secondary pollution, recyclable elemental sulfur, and low operating costs, especially suitable for the treatment of low concentration hydrogen sulfide biogas. In addition, the process has a high degree of automation and is easy to operate and manage.

　　干法脫硫的設(shè)備結(jié)構(gòu)簡(jiǎn)單，占地面積小，初期投資成本低。對(duì)于硫化氫濃度較低、處理氣量較小的工況，干法脫硫能高效去除硫化氫，凈化后的沼氣硫化氫含量可低至 10ppm 以下，且脫硫精度穩(wěn)定。

　　The equipment structure of dry desulfurization is simple, occupies a small area, and has low initial investment costs. For operating conditions with low hydrogen sulfide concentration and small gas processing capacity, dry desulfurization can efficiently remove hydrogen sulfide, and the hydrogen sulfide content of purified biogas can be as low as 10ppm or less, with stable desulfurization accuracy.

　　濕法脫硫則在處理高濃度硫化氫和大流量沼氣時(shí)表現(xiàn)出色，其脫硫效率可達(dá) 99% 以上，能快速將硫化氫濃度從數(shù)千 ppm 降至達(dá)標(biāo)水平。同時(shí)，吸收劑可再生循環(huán)使用，降低了運(yùn)行成本 。

　　Wet desulfurization performs well in treating high concentrations of hydrogen sulfide and high flow biogas, with a desulfurization efficiency of over 99%, and can quickly reduce hydrogen sulfide concentration from thousands of ppm to the standard level. Meanwhile, the absorbent can be recycled and reused, reducing operating costs.

　　三、應(yīng)用局限性分析

　　3、 Application Limitations Analysis

　　生物脫硫的反應(yīng)速度相對(duì)較慢，對(duì)環(huán)境條件要求苛刻，溫度、pH 值等參數(shù)的微小波動(dòng)都可能影響微生物活性，導(dǎo)致脫硫效率下降。此外，該工藝啟動(dòng)時(shí)間較長(zhǎng)，不適用于需快速響應(yīng)的脫硫場(chǎng)景。

　　The reaction speed of biological desulfurization is relatively slow, and it requires strict environmental conditions. Even small fluctuations in parameters such as temperature and pH can affect microbial activity, leading to a decrease in desulfurization efficiency. In addition, this process has a long start-up time and is not suitable for desulfurization scenarios that require rapid response.

　　干法脫硫的脫硫劑更換或再生較為頻繁，當(dāng)處理氣量較大或硫化氫濃度較高時(shí)，運(yùn)行成本會(huì)顯著增加。且氧化鐵等脫硫劑再生過(guò)程復(fù)雜，操作不當(dāng)易引發(fā)安全隱患 。

　　The replacement or regeneration of desulfurizers in dry desulfurization is relatively frequent. When the processing gas volume is large or the concentration of hydrogen sulfide is high, the operating cost will significantly increase. Moreover, the regeneration process of desulfurizers such as iron oxide is complex, and improper operation can easily lead to safety hazards.

　　濕法脫硫的設(shè)備投資成本較高，吸收塔、再生塔等設(shè)備體積龐大，占地面積大。同時(shí)，工藝過(guò)程中會(huì)產(chǎn)生一定量的廢水，若處理不當(dāng)會(huì)造成二次污染，且運(yùn)行過(guò)程中能耗相對(duì)較高 。

　　The investment cost of wet desulfurization equipment is relatively high, and equipment such as absorption towers and regeneration towers are bulky and occupy a large area. At the same time, a certain amount of wastewater will be generated during the process, which can cause secondary pollution if not treated properly, and the energy consumption during operation is relatively high.

　　四、適用場(chǎng)景選擇

　　4、 Applicable scenario selection

　　綜合來(lái)看，生物脫硫適用于農(nóng)村沼氣工程、小型養(yǎng)殖場(chǎng)沼氣處理等硫化氫濃度較低、對(duì)環(huán)保要求高、追求低成本運(yùn)行的場(chǎng)景；干法脫硫常用于小型沼氣站、實(shí)驗(yàn)室沼氣凈化等處理氣量小、脫硫精度要求高的場(chǎng)合；濕法脫硫則在大型沼氣工程、工業(yè)沼氣回收利用等處理氣量大、硫化氫濃度高的項(xiàng)目中更具優(yōu)勢(shì) 。

　　Overall, biological desulfurization is suitable for scenarios with low hydrogen sulfide concentration, high environmental requirements, and pursuit of low-cost operation, such as rural biogas projects and small-scale livestock farm biogas treatment; Dry desulfurization is commonly used in small-scale biogas stations, laboratory biogas purification, and other situations where the treatment gas volume is small and the desulfurization accuracy is high; Wet flue gas desulfurization has more advantages in large-scale biogas projects, industrial biogas recycling and utilization projects with large gas processing capacity and high hydrogen sulfide concentration.

　　在實(shí)際應(yīng)用中，可根據(jù)沼氣的硫化氫含量、處理規(guī)模、環(huán)保要求、投資預(yù)算等因素，靈活選擇單一脫硫工藝或組合多種工藝，以實(shí)現(xiàn)高效、經(jīng)濟(jì)、環(huán)保的沼氣脫硫目標(biāo)。

　　In practical applications, a single desulfurization process or a combination of multiple processes can be flexibly selected based on factors such as hydrogen sulfide content, treatment scale, environmental requirements, and investment budget of biogas to achieve efficient, economical, and environmentally friendly biogas desulfurization goals.

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