Enhanced Biogas Production from Rice Husks and Okra Stalks by Co-digestion with Ostrich Dung and Cow Manure

Q4 Engineering

The Journal of Engineering Research Pub Date : 2023-10-19 DOI:10.53540/tjer.vol20iss2pp12-22

Huda Jassim, Amal Khalil

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引用次数: 0

Abstract

In this study, two sides were studied. First one included single and combined pretreatment which were performed to treat milled rice husks compared to increase the production of biogas untreated rice husks. The other side included investigate the effect of two types of mixing: mixing rice husks and okra stalks using three mixing ratios inoculated with ostrich dung compared to rice husks and okra stalks inoculated with ostrich dung separately and mixing ostrich dung and cow manure using three mixing ratios with rice husks compared to using rice husks inoculated with ostrich dung and cow manure separately. The ten reactors, which were carried out in this study, were in batch mode. Single pretreatment included hydrothermal and oxidative pretreatment with 50% (v/v) H2O2, while combined pretreatment consisted of both hydrothermal and H2O2 pretreatment. The cow manure was used as inoculum in this anaerobic co-digestion process. The results clarified that the increase of biogas productions were by 5.42%, 48.05%, and 59.07% for hydrothermal, H2O2, and combined pretreatment of hydrothermal and H2O2, respectively. For first mixing, 25:75 ratio (rice husks: okra stalks) was better than other ratios in the production of biogas (48.77 ml/g VS). In the second case of mixing, 75:25 ratio (ostrich dung: cow manure) was better than other ratios in the production of biogas (21.85 ml/g VS). Kinetic study was applied using modified Gompertz model, and there was well agreement between the predicted and measured values of the all pretreatments with correlation coefficient > 0.95. The pretreatment samples of rice husks and the mixing of materials improve the production of biogas and methane.

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稻壳和秋葵秸秆与鸵鸟粪和牛粪共消化提高沼气产量

在这项研究中，研究了两个方面。第一种方法是对稻壳进行单一预处理和联合预处理，以提高未处理稻壳的沼气产量。另一方面考察了两种混合方式的效果:分别用鸵鸟粪接种稻壳和秋葵秸秆进行3种混合，与分别用鸵鸟粪接种稻壳和秋葵秸秆进行3种混合;用鸵鸟粪和牛粪分别用稻壳和牛粪进行3种混合，与分别用鸵鸟粪和牛粪接种稻壳进行3种混合。本研究采用的10个反应器均为间歇式反应器。单次预处理包括水热预处理和50% (v/v) H2O2氧化预处理，联合预处理包括水热预处理和H2O2预处理。以牛粪为接种剂进行厌氧共消化。结果表明，水热、H2O2和水热与H2O2联合预处理的沼气产量分别提高了5.42%、48.05%和59.07%。第一次混合时，稻壳与秋葵茎的比例为25:75，产气效果最佳(48.77 ml/g VS)。在第二种混合情况下，75:25的比例(鸵鸟粪:牛粪)比其他比例更能产生沼气(21.85 ml/g VS)。采用改进的Gompertz模型进行动力学研究，各预处理的预测值与实测值吻合较好，相关系数>0.95. 稻壳样品的预处理和物料的混合提高了沼气和甲烷的产量。

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来源期刊

The Journal of Engineering Research Engineering-Engineering (all)

CiteScore

0.70

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： The Journal of Engineering Research (TJER) is envisaged as a refereed international publication of Sultan Qaboos University, Sultanate of Oman. The Journal is to provide a medium through which Engineering Researchers and Scholars from around the world would be able to publish their scholarly applied and/or fundamental research works.