农业工程学报
農業工程學報
농업공정학보
2003年
5期
214-217
,共4页
高志坚%李秀金%杨懂艳%江洪银
高誌堅%李秀金%楊懂豔%江洪銀
고지견%리수금%양동염%강홍은
玉米秸秆%生物气%厌氧消化%中温%常温
玉米秸稈%生物氣%厭氧消化%中溫%常溫
옥미갈간%생물기%염양소화%중온%상온
corn stalk%biogas%anaerobic digestion%mesophilic%ambient
为解决玉米秸的资源化利用问题,提出通过厌氧消化的方法把其转化成生物气体.比较了在中温和常温条件下,不同负荷率(35、50、65 g/L)对玉米秸秆日产气量、累积产气量、总干物质(TS)和挥发性有机物(VS)消化率的影响.试验结果显示,不论是在中温还是在常温条件下,50 g/L TS负荷率都获得了较高的累积产气量;相对于常温而言,中温厌氧消化的累积产气量提高了63%,总干物质(TS)和有机物(VS)消化率分别增加33%和49%,产气速率也明显提高.因此,使用50 g TS/L负荷率,在中温条件下对玉米秸秆进行厌氧消化是比较好的.该试验结果可为玉米秸秆的大规模生物气化提供重要设计依据.
為解決玉米秸的資源化利用問題,提齣通過厭氧消化的方法把其轉化成生物氣體.比較瞭在中溫和常溫條件下,不同負荷率(35、50、65 g/L)對玉米秸稈日產氣量、纍積產氣量、總榦物質(TS)和揮髮性有機物(VS)消化率的影響.試驗結果顯示,不論是在中溫還是在常溫條件下,50 g/L TS負荷率都穫得瞭較高的纍積產氣量;相對于常溫而言,中溫厭氧消化的纍積產氣量提高瞭63%,總榦物質(TS)和有機物(VS)消化率分彆增加33%和49%,產氣速率也明顯提高.因此,使用50 g TS/L負荷率,在中溫條件下對玉米秸稈進行厭氧消化是比較好的.該試驗結果可為玉米秸稈的大規模生物氣化提供重要設計依據.
위해결옥미갈적자원화이용문제,제출통과염양소화적방법파기전화성생물기체.비교료재중온화상온조건하,불동부하솔(35、50、65 g/L)대옥미갈간일산기량、루적산기량、총간물질(TS)화휘발성유궤물(VS)소화솔적영향.시험결과현시,불론시재중온환시재상온조건하,50 g/L TS부하솔도획득료교고적루적산기량;상대우상온이언,중온염양소화적루적산기량제고료63%,총간물질(TS)화유궤물(VS)소화솔분별증가33%화49%,산기속솔야명현제고.인차,사용50 g TS/L부하솔,재중온조건하대옥미갈간진행염양소화시비교호적.해시험결과가위옥미갈간적대규모생물기화제공중요설계의거.
Anaerobic digestion technology for corn stalk conversion to biogas was investigated for corn stalk utilization and pollution reduction. Two temperatures(ambient and thermophilic) and three loading rates of 35, 50, 65 g/L were tested, and their effects on biogas production, total solid(TS) and volatile solid(VS) reduction were compared. The results showed that the loading rate of 50 g/L achieved highest cumulative biogas production for both temperatures. The temperature is one of major factors affecting efficiency and rate of anaerobic digestion of corn stalk. As compared with ambient temperature, mesophilic digestion with the loading rate of 50 g/L was able to achieve 63% higher cumulative biogas production, 33% and 49% more reduction of TS and VS and need 10 days less hydraulic retention time. Therefore, it had favorable economy and is recommended. This study could provide useful parameters for the design of large-scale anaerobic digester for corn stalk conversion for biogas production.
