在一個可以正常停止發酵的沼氣池中,非產甲烷細菌對有機物合成應用的速度決議了產甲烷細菌產甲烷的速度。山東沼氣提純設備公司提示大家,想要進一步進步沼氣產量,重要的不是產甲烷細菌的繼續富集,而是進步非產甲烷細菌對有機物的水解速度,特別是對纖維素的合成速度。因而,為沼氣池提供水解微生物的優勢菌群,改善非產甲烷細菌的代謝功用,是進步有機物合成應用率和沼氣產量的一項重要措施。
In a methane digester where fermentation can be stopped normally, the rate of methanogens producing methane depends on the rate of application of non-methanogens to organic synthesis. Shandong Biogas Purification Equipment Company reminds us that in order to further improve the production of biogas, it is not the continued enrichment of methanogenic bacteria, but the hydrolysis rate of non-methanogenic bacteria to organic matters, especially the synthesis rate of cellulose. Therefore, it is an important measure to improve the application rate of organic matter synthesis and biogas production to provide dominant microbial flora for biogas digesters and improve the metabolic function of non-methanogenic bacteria.
為了進步沼氣池發酵原料的合成應用率和產氣量,國內外都非常注重在沼氣池內堅持較多的產甲烷細菌群(厭氧污泥)。除了應采取上述措施外,為沼氣池提供水解細菌的優勢菌群,改善非產甲烷細菌的代謝功用,使有機物得到更徹底的合成,是進步沼氣池產氣量的重要途徑。關于處置固形物含量較高的、含較多較難合成的有機物的沼氣發酵原料,采取這一措施顯得尤為重要。
In order to improve the synthetic application rate and gas production of biogas digester fermentation raw materials, more methanogenic bacteria (anaerobic sludge) are attached great importance to in biogas digesters at home and abroad. In addition to the above measures, it is an important way to improve the gas production of biogas digesters by providing the dominant bacterial flora of hydrolytic bacteria, improving the metabolic function of non-methanogenic bacteria and making organic matter more thoroughly synthesized. It is particularly important to take this measure to dispose of biogas fermentation raw materials with high solid content and more difficult to synthesize organic matter.
山東沼氣提純設備公司研討發現,在豬糞和雞糞的厭氧消化過程中,各種水解酶(蛋白酶、纖維素酶、脂肪酶和淀粉酶等)的酶活與沼氣產量成正比關系,水解酶活均呈現在產氣峰值的左近,并且水解酶活與沼氣產量的變化曲線類似,這一結果在國內外尚未見報道。另有研討標明,適量添加水解酶能加快發酵原料中纖維素的降解速度,明顯進步沼氣產量。
Shandong Biogas Purification Equipment Co., Ltd. has found that in the anaerobic digestion process of pig manure and chicken manure, the activities of various hydrolytic enzymes (protease, cellulase, lipase and amylase, etc.) are proportional to the biogas production, and the activities of hydrolytic enzymes are near the peak value of biogas production, and the change curve of hydrolytic enzymes is similar to that of biogas production. This result has not been reported at home and abroad. It was also indicated that proper addition of hydrolytic enzymes could accelerate the degradation of cellulose in fermentation raw materials and significantly improve biogas production.
自然狀態下的秸稈由纖維素、半纖維素、木質素及局部蛋白質、氨基酸、單寧等組成。由于自然木質纖維素構造的復雜性,停止生物轉化的難點在于如何高效將它降解成為可發酵糖。分離預處置辦法消弭木質素的障礙作用,是進步纖維素被纖維素酶水解的有效步驟。將纖維素酶的產生、纖維素的水解及酒精發酵過程有效組合,可進步生物轉化效率降低轉化本錢。大家曉得,麥秸、稻草、玉米稈等植物性原料表皮上都有一層蠟質,假如不作處置就下池,水分不易經過蠟質層進入秸稈內部,纖維素很難腐朽合成,不能被甲烷細菌應用,而且會形成浮料或結殼現象。
The natural straw is composed of cellulose, hemicellulose, lignin, local protein, amino acid, tannin and so on. Because of the complexity of natural lignocellulose structure, the difficulty of stopping bioconversion is how to efficiently degrade it into fermented sugar. Separation pretreatment is an effective step to improve the hydrolysis of cellulose by cellulase. The combination of cellulase production, cellulose hydrolysis and alcohol fermentation can improve the efficiency of bioconversion and reduce the cost of conversion. It is well known that there is a layer of wax on the epidermis of plant materials such as wheat straw, rice straw and corn straw. If it is not disposed of, it will go down into the pond. Water will not easily enter the straw through the waxy layer. Cellulose is difficult to decay and synthesize, and can not be used by methane bacteria, and it will form bubbles or crusts.
由于微生物的木質纖維素降解才能較弱,招致農作物秸稈的水解過程遲緩,水解水平低,使農作物秸稈的厭氧消化時間長、消化率低、產氣量少、投入產出效益差,因此限制了秸稈大范圍地應用于厭氧發酵。
Because the degradation ability of lignocellulose by microorganisms is weak, the hydrolysis process of crop straw is slow and the level of hydrolysis is low, the anaerobic digestion time of crop straw is long, the digestibility is low, the gas production is low, and the input-output benefit is poor, so the wide application of straw in anaerobic fermentation is limited.
因而,研討如何經過預處置使作物秸稈中的木質纖維素得到有效降解成為秸稈生物處置的一個關鍵。
Therefore, how to effectively degrade lignocellulose in crop straw after pretreatment has become a key issue in straw biological disposal.
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