首页> 外文期刊>International journal of hydrogen energy >Co-digestion of corn (nejayote) and brewery wastewater at different ratios and pH conditions for biohydrogen production

【24h】

Co-digestion of corn (nejayote) and brewery wastewater at different ratios and pH conditions for biohydrogen production

机译：在不同比率和生物氢生产的pH条件下的玉米（Nejayote）和啤酒厂废水的共消化

获取原文

获取原文并翻译 | 示例

获取外文期刊封面目录资料

开具论文收录证明 >>

文献代查 >>

文献数据库（团队版） >>

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

The capacity of a heat-treated sludge (HTS) to produce hydrogen from the mono-and co digestion of corn (NW, pH 13.1) and brewery (BW, pH 3.8) wastewater was evaluated. The co-digestion of NW and BW was conducted with ratios (NW/BW) from 40/60 to 80/20 (vol/ vol) at pH 6 and under different initial pH values (from 5.8 to 12.3) according to the substrates mixtures. With the initial pH adjusted to 6, the highest production (302 mL) occurred for the mono-digestion of NW, but hydrogen was produced in all incubations. For incubations under variable pH values, the highest hydrogen production was obtained with the ratio 60/40 (270 mL), followed by the ratio 65/35 (260 mL) with pH values of 10.8 and 10.4, respectively. The initial pH influenced the kinetic parameters, especially on maximum production and lag phase. For the ratio 60/40, with an alkaline pH value (10.4), the lag phase was delayed up to 122 h, but the highest volume of hydrogen was obtained with this condition. The Clostridium genus, present in all samples, could be associated as the main responsible for hydrogen production. Besides, the presence of Burkholderia genus, previously related to hydrogen production, was identified as the main involved in the culture at pH 10.8. (c) 2021 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

机译：评价热处理污泥（HTS）的容量，从玉米（NW，pH13.1）和啤酒厂（BW，pH3.8）废水中，从单氧化物和Co消化中产生氢气。根据基质混合物，在pH6和pH6中的40/60至80/20（Vol /体积）和不同的初始pH值（5.8至12.3）下进行NW和BW的共消化。通过初始pH调节至6，最高产量（302mL）对于NW的单消解而发生，但在所有孵育中产生氢。为了在可变pH值下孵育，获得最高氢气产生，比率60/40（270mL），然后分别具有10.8和10.4的pH值的比率65/35（260mL）。初始pH对动力学参数影响，特别是在最大产量和滞后阶段。对于比率60/40，用碱性pH值（10.4），延迟滞后阶段高达122小时，但用这种条件获得最高的氢气量。在所有样品中存在的梭菌属属可能与负责氢生产的主要负责相关。此外，伯克德利亚属属的存在以前与氢生产有关的，被鉴定为培养物在pH10.8中涉及培养物的主要。（c）2021氢能出版物LLC。 elsevier有限公司出版。保留所有权利。

著录项

来源
《International journal of hydrogen energy》 |2021年第54期|27422-27430|共9页
作者
Del Angel-Acosta Yair A.; Alvarez Luis H.; Garcia-Reyes Refugio B.; Carrillo-Reyes Julian; Garcia-Gonzalez Alcione; Meza-Escalante Edna R.;
展开▼
作者单位

Univ Autonoma Nuevo Leon UANL Fac Ciencias Quim Av Univ S-N Cd Univ San Nicolas De Los Garza 66455 Nuevo Leon Mexico;

Inst Tecnol Sonora ITSON Dept Ciencias Agron & Vet 5 Febrero 818 Sur Cuidad Obregon 85000 Sonora Mexico;

Univ Autonoma Nuevo Leon UANL Fac Ciencias Quim Av Univ S-N Cd Univ San Nicolas De Los Garza 66455 Nuevo Leon Mexico;

Univ Nacl Autonoma Mexico Inst Ingn Lab Res Adv Proc Water Treatment Unidad Acad Juriquilla Blvd Juriquilla 3001 Queretaro 76230 Mexico;

Univ Autonoma Nuevo Leon UANL Fac Ciencias Quim Av Univ S-N Cd Univ San Nicolas De Los Garza 66455 Nuevo Leon Mexico;

Inst Tecnol Sonora ITSON Dept Ciencias Agua & Medio Ambiente 5 Febrero 818 Sur Cuidad Obregon 85000 Sonora Mexico;

展开▼
收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Dark fermentation; Biohydrogen; Gompertz model; Heat-treated anaerobic sludge; Renewable energy;

机译：黑暗发酵;生物氢;Gompertz模型;热处理的厌氧污泥;可再生能源;

相似文献

外文文献
中文文献
专利

1. Effect of adding brewery wastewater to pulp and paper mill effluent to enhance the photofermentation process: wastewater characteristics, biohydrogen production, overall performance, and kinetic modeling [J] . Hay Jacqueline Xiao Wen, Wu Ta Yeong, Juan Joon Ching, Environmental Science and Pollution Research . 2017,第11期

机译：将啤酒厂废水添加到纸浆和造纸厂流出物中提高光专业工艺的影响：废水特性，生物生产，整体性能和动力学建模
2. Continuous aqueous phase reforming of a synthetic brewery wastewater with Pt/C and PtRe/C catalysts for biohydrogen production [J] . Oliveira A. S., Cordero-Lanzac T., Baeza J. A., Chemosphere . 2021,第Octa期

机译：具有Pt / C和Ptre / C催化剂的合成啤酒废水的连续水相改性，用于生物氢生产
3. Improvement of photofermentative biohydrogen production using pre-treated brewery wastewater with banana peels waste [J] . Al-Mohammedawi Hassan H., Znad Hussein, Eroglu Ela International journal of hydrogen energy . 2019,第5期

机译：使用香蕉皮废料预处理啤酒废水改善光发酵生物氢的生产
4. Biohydrogen production by co-fermentation of starch wastewater and sludge under thermophilic condition [C] . Heshan Zheng, Wanqian Guo, Shanshan Yang, International Conference on Energy and Environmental Protection . 2013

机译：通过淀粉废水和嗜热条件下的污泥的共发酵生产生物氢化
5. Thermophilic Anaerobic Co-digestion of Swine Manure with Corn Stover for Biogas Production [D] . Liu, Zhimin. 2017

机译：嗜热厌氧共同消化猪粪与玉米秸秆沼泽生产
6. Single-Stage Operation of Hybrid Dark-Photo Fermentation to Enhance Biohydrogen Production through Regulation of System Redox Condition: Evaluation with Real-Field Wastewater [O] . Rashmi Chandra, G. N. Nikhil, S. Venkata Mohan 2015

机译：通过调节系统氧化还原条件通过混合暗照片发酵的单阶段操作来提高生物氢的生产：实地废水评估
7. Single-Stage Operation of Hybrid Dark-Photo Fermentation to Enhance Biohydrogen Production through Regulation of System Redox Condition: Evaluation with Real-Field Wastewater [O] . Rashmi Chandra, G. N. Nikhil, S. Venkata Mohan 2015

机译：通过调节系统氧化还原条件实现混合暗光发酵单级操作以提高生物制氢：实际废水评价

获取原文

客服邮箱：kefu@zhangqiaokeyan.com

京公网安备：11010802029741号 ICP备案号：京ICP备15016152号-6 六维联合信息科技 (北京) 有限公司©版权所有

客服微信
服务号