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Enhanced methane production and its kinetics model of thermally pretreated lignocellulose waste material.热预处理木质纤维素废物的甲烷产量提高及其动力学模型。
Bioresour Technol. 2017 Oct;241:1-9. doi: 10.1016/j.biortech.2017.05.068. Epub 2017 May 15.
2
Kinetic modelling of anaerobic hydrolysis of solid wastes, including disintegration processes.固体废物厌氧水解的动力学模型,包括分解过程。
Waste Manag. 2015 Jan;35:96-104. doi: 10.1016/j.wasman.2014.10.012. Epub 2014 Nov 4.
3
The effects of substrate pre-treatment on anaerobic digestion systems: a review.底物预处理对厌氧消化系统的影响:综述。
Waste Manag. 2012 Sep;32(9):1634-50. doi: 10.1016/j.wasman.2012.04.016. Epub 2012 May 25.
4
Thermochemical pre- and biological co-treatments to improve hydrolysis and methane production from poultry litter.热化学预处理和生物共处理以提高家禽粪便的水解和甲烷生成。
Bioresour Technol. 2012 May;111:141-7. doi: 10.1016/j.biortech.2012.02.047. Epub 2012 Feb 17.
5
Thermal pre-treatment of aerobic granular sludge: impact on anaerobic biodegradability.好的,我将为你翻译: 好氧颗粒污泥的热预处理:对厌氧生物降解性的影响。
Water Res. 2011 Nov 15;45(18):6011-20. doi: 10.1016/j.watres.2011.08.050. Epub 2011 Sep 3.
6
The anaerobic digestion of solid organic waste.固体有机废物的厌氧消化。
Waste Manag. 2011 Aug;31(8):1737-44. doi: 10.1016/j.wasman.2011.03.021. Epub 2011 May 6.
7
Effects of acid pre-treatment on bio-hydrogen production and microbial communities during dark fermentation.黑暗发酵过程中酸预处理对生物制氢及微生物群落的影响。
Bioresour Technol. 2009 Feb;100(3):1491-3. doi: 10.1016/j.biortech.2008.08.019. Epub 2008 Sep 16.
8
Comparative performance and microbial diversity of hyperthermophilic and thermophilic co-digestion of kitchen garbage and excess sludge.
Bioresour Technol. 2009 Jan;100(2):578-85. doi: 10.1016/j.biortech.2008.06.063. Epub 2008 Aug 26.
9
Thermophilic anaerobic digestion of source-sorted organic fraction of municipal solid waste.城市固体废弃物源头分类有机组分的嗜热厌氧消化
Bioresour Technol. 2008 Oct;99(15):6763-70. doi: 10.1016/j.biortech.2008.01.052. Epub 2008 Mar 14.
10
Inhibition of anaerobic digestion process: a review.厌氧消化过程的抑制作用:综述
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通过热碱溶解提高沼气产量,随后将屠宰场的肠道废物与食物垃圾进行共消化。

Enhanced biogas yield by thermo-alkali solubilization followed by co-digestion of intestine waste from slaughterhouse with food waste.

作者信息

Porselvam S, Soundara Vishal N, Srinivasan S V

机构信息

Environmental Science and Engineering Division, CSIR-Central Leather Research Institute, Adyar, Chennai, Tamil Nadu 600020 India.

出版信息

3 Biotech. 2017 Oct;7(5):304. doi: 10.1007/s13205-017-0936-x. Epub 2017 Sep 9.

DOI:10.1007/s13205-017-0936-x
PMID:28944152
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5591176/
Abstract

Intestine waste generated from slaughterhouse (IWS) is difficult to degrade in anaerobic process due to the presence of high protein and lipid contents. However, anaerobic co-digestion helps to increase the degradation of IWS by the addition of carbon-rich food waste (FW). To increase the biogas yield, thermo-alkali pretreatment may be more viable method for the anaerobic digestion of protein and lipid rich wastes. In the present study, Thermo-alkali pretreatment of intestine waste from slaughterhouse and food waste alone and mixing of IWS and FW with different ratios (1:1-1:3) on VS basis have been studied. To study the effect of Thermo-alkali pretreatment on solubilization of substrate, the substrate was mixed with alkali solutions (NaOH and KOH) at different concentrations of 1, 2, 3, 4 and 5% solutions. The results revealed that the maximum solubilization was observed to be 94.7% and 90.1% at KOH (1:3 and 5%) and NaOH (1:3 and 5%), respectively. Based on the study, enhancement in biogas yield by 16% (IWS), 11.5% (FW), 12.2% (1:1), 18.11% (1:2) and 22.5% (1:3) in KOH pretreated waste when compared with NaOH pretreated waste.

摘要

由于含有高蛋白和脂质成分,屠宰场产生的肠道废弃物(IWS)在厌氧过程中难以降解。然而,通过添加富含碳的食物垃圾(FW)进行厌氧共消化有助于提高IWS的降解率。为了提高沼气产量,热碱预处理可能是更可行的方法来处理富含蛋白质和脂质的废弃物。在本研究中,对屠宰场肠道废弃物和单独的食物垃圾进行热碱预处理,并研究了基于挥发性固体(VS)的不同比例(1:1 - 1:3)的IWS与FW混合情况。为了研究热碱预处理对底物溶解的影响,将底物与不同浓度(1%、2%、3%、4%和5%)的碱溶液(NaOH和KOH)混合。结果表明,在KOH(1:3和5%)和NaOH(1:3和5%)处理下,最大溶解率分别为94.7%和90.1%。基于该研究,与NaOH预处理的废弃物相比,KOH预处理的废弃物沼气产量提高了16%(IWS)、11.5%(FW)、12.2%(1:1)、18.11%(1:2)和22.5%(1:3)。