食物垃圾和废纸联合厌氧消化产甲烷

时间:2009-04-01  阅读:    我要评论:

中文题目:

食物垃圾和废纸联合厌氧消化产甲烷

英文题目:

Methane production by anaerobic co-digestion of food waste and waste paper

作者:

李东,孙永明,袁振宏,孔晓英,张宇,李连华

 

中文摘要

   以食物垃圾和废纸为原料,通过批式中温(35℃)联合厌氧消化产甲烷实验,考察了原料比例(以VS计为:100∶0、83∶17和62∶38)和酸化阶段pH(未调节和调节pH=7.2)对消化稳定性及消化性能的影响.实验结果表明,与单独利用食物垃圾以及未调节酸化阶段pH的厌氧消化相比,调节酸化阶段pH=7.2的食物垃圾与废纸联合厌氧消化能够避免挥发性脂肪酸抑制、保证消化稳定性并提高消化性能.在调节酸化阶段pH为7.2,且食物垃圾和废纸的原料比例为83∶17和62∶38的2组厌氧消化实验中,产甲烷稳定时液相pH稳定在7.4-8.0,液相产物中总VFA浓度稳定在500-900 mg·L-1,其中丙酸浓度为100~550 mg·L-1,未检测出乙醇;累积产甲烷量(以VS计算)分别为347和247 mL·g-1,生物气中的甲烷含量稳定在70%-80%,最高可达81.6%;以1g VS相当于1.1g COD进行计算,COD去除率分别为93.2% 和80.5%,用于产甲烷的COD分别占总进料COD的90.0% 和64.0%.食物垃圾和废纸的最佳中温厌氧消化产甲烷条件为:原料比例83∶17,酸化阶段调节pH=7.2.
Abstract

       Using food waste and waste paper as anaerobic co-digestion materials, batch mesophilic (35℃) experiments were carried out to investigate the effects of material proportion (100∶0, 83∶17 and 62∶38)and pH adjustments at the acidification stage (unadjusted vs. 7.2) on the stability and performance of anaerobic digestion. Compared to the pure food waste without pH adjustment, adjusting the pH to 7.2 at the acidification stage avoided the inhibition of volatile fatty acids(VFAs), but maintained the stability and good digestion performance. For the two digestions of material proportion (83∶17 and 62∶38)with pH adjustment to 7.2 at the acidification stage, the stable pHs for methane production were 7.4~8.0, total VFA concentrations were 500~900 mg·L-1, propionic acid concentrations were 100~550 mg·L-1, and no ethanol production was detected. The cumulative methane production (calculated from volatile solids. where 1 g VS equals 1.1 g COD) was 347 and 247 mL·g-1 respectively, and methane contents were 70%~80%, highest at 81.6%. The COD removal rates were 93.2% and 80.5% and the COD of methane production were 90.0% and 64.0% of total added COD, respectively. The optimal conditions for anaerobic mesophilic co-digestion for methane production were a food waste to waste paper ratio of 83∶17 with pH adjustment to 7.2 at the acidification stage.

 

来自《环境科学学报》

本栏目最近更新

美国科研人员在油气废水中发现新污染物
《ES&T》:中科院发现当前海洋POPs主要污染来源
PLOSOne:中国科学家发现新型超富硒植物—壶瓶碎米荠
英国科学家研制出首款可用尿液充电手机
氧化石墨烯具有去除放射性污染的巨大潜力
《Environmental Health Perspectives》:养猪场恶臭为致病“元凶”
关键词:食物垃

特别声明:本文转载仅仅是出于传播信息的需要,版权归原作者所有,并不意味着代表本网站观点或证实其内容的真实性; 如其他媒体、网站或个人从本网站转载使用,须保留本网站注明的“来源”,并自负版权等法律责任; 作者如果不希望被转载或者联系转载稿费等事宜,请与我们接洽:service#environmentor.cn(请将#改为@)。

来源:  作者:  (环境人 Environmentor.Cn

网友评论

共有条评论

请您文明上网、理性发言,遵守互联网相关规定。评论在审核通过后才会显示