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以牛粪厌氧污泥为原料,以稻草和蛤壳为催化剂进行共液化生产生物甲烷和生物油的增值研究。

A study on value addition of cow dung-based anaerobic sludge for biomethane and bio-oil production co-liquefaction with rice straw and clam shells as a catalyst.

作者信息

Abdo Hany S, Alnaser Ibrahim A, Karim Mohammad R, Mohammed Jabair A, Aijaz Muhammad Omer, Hassan Ahmed, Seikh Asiful H

机构信息

Center of Excellence for Research in Engineering Materials (CEREM), Deanship of Scientific Research, King Saud University Riyadh 11421 Saudi Arabia

Mechanical Engineering Department, College of Engineering, King Saud University Riyadh 11421 Saudi Arabia

出版信息

RSC Adv. 2024 Aug 15;14(35):25685-25694. doi: 10.1039/d4ra00794h. eCollection 2024 Aug 12.

DOI:10.1039/d4ra00794h
PMID:39148760
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11325144/
Abstract

The waste management sector is moving towards sustainable approaches for facilitating resource-recovery possibilities. Agriculture residue (rice straw), cow dung (cattle waste), and clam shells from the ocean are the primary waste materials possessing a huge value addition opportunity. In this study, the effective usage of rice straw and anaerobic sludge from cow dung for bio-energy production was studied. Cow dung was initially anaerobically processed for the generation of biomethane and sludge in a digester for a retention time of 40 days. The anaerobic sludge with rice straw was hydrothermally processed in varying proportions of 1 : 0, 0 : 1, 1 : 1,1 : 2, 2 : 1, 3 : 1, 1 : 3 and temperatures of 240-360 °C for 1 hour with varying biomass loads of 50, 75, 100, 125, and 150 g. Additionally, clam shells, one of the best bioresources, were used as a catalyst in the hydrothermal process at concentrations of 0.2-1 wt%. The maximum bio-oil produced was 36.23 wt% at a temperature of 320 °C, with a biomass load of 100 g, mixed proportion of 2 : 1 and catalyst loading of 0.6 wt%. The produced bio-oil comprised hydrocarbons, aldehydes, and carboxylic acids, as confirmed through GC-MS. In the anaerobic study, ≈0.018 m cumulative gas was produced at a retention time of 40 days. The biochar had a higher carbon content and its feasibility for further usage shows promise towards sustainability.

摘要

废物管理部门正在朝着可持续的方法发展,以促进资源回收的可能性。农业残留物(稻草)、牛粪(牲畜粪便)和海洋中的蛤壳是具有巨大增值机会的主要废料。在本研究中,对稻草和牛粪厌氧污泥用于生物能源生产的有效利用进行了研究。牛粪首先在消化器中进行厌氧处理,以产生生物甲烷和污泥,停留时间为40天。将稻草与厌氧污泥按1∶0、0∶1、1∶1、1∶2、2∶1、3∶1、1∶3的不同比例进行水热加工,在240 - 360℃的温度下保持1小时,生物质负载量分别为50、75、100、125和150克。此外,蛤壳作为最佳生物资源之一,在水热过程中以0.2 - 1 wt%的浓度用作催化剂。在320℃的温度下,生物质负载量为100克,混合比例为2∶1,催化剂负载量为0.6 wt%时,产生的最大生物油为36.23 wt%。经气相色谱 - 质谱联用仪(GC - MS)确认,所产生的生物油包含碳氢化合物、醛类和羧酸。在厌氧研究中,停留时间为40天时产生了约0.018立方米的累积气体。生物炭具有较高的碳含量,其进一步利用的可行性显示出对可持续性的前景。

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