Volume 7, Issue 1, January 2019, Page: 40-46
Study on the Conditions of Biogas Fermentation from Distillers' Grains
Mengmeng Yu, Department of Technology Center, Shandong Bori Bioenergy Co., Ltd., Dongying, China
Qinghua Ding, Department of Technology Center, Shandong Bori Bioenergy Co., Ltd., Dongying, China
Zhifeng Lv, Department of Technology Center, Shandong Bori Bioenergy Co., Ltd., Dongying, China
Yuancheng Zhang, Department of Technology Center, Shandong Bori Bioenergy Co., Ltd., Dongying, China
Received: Dec. 26, 2018;       Accepted: Jan. 25, 2019;       Published: Feb. 19, 2019
DOI: 10.11648/j.ogce.20190701.17      View  244      Downloads  22
Abstract
The distillers' grains fermentation was studied, which was from ethanol fermentation of sweet sorghum stalk. The factors such as temperature, concentration, inocula, pH etc. were analysis. The results showed the optimal temperature was 55°C, the optimal weight concentration of distillers' grains was 3.3%, the amount of inocula was 1.5%, and the pH should be adjusted before fermentation. Under this condition, the maximum biogas production was 3710mL/d and appeared in the 9th day. The overall length of the fermentation period was 32d, and the biogas production rate was up to 509mL/gTS. The results could provide a theoretical basis for the fermentation of biogas production from distillers' grains.
Keywords
Distillers' Grains, Biogas, Fermentation
To cite this article
Mengmeng Yu, Qinghua Ding, Zhifeng Lv, Yuancheng Zhang, Study on the Conditions of Biogas Fermentation from Distillers' Grains, International Journal of Oil, Gas and Coal Engineering. Vol. 7, No. 1, 2019, pp. 40-46. doi: 10.11648/j.ogce.20190701.17
Copyright
Copyright © 2019 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
WANG YAN-fei, QIN XIN-zheng, ZHANG LI-ming. Preliminary study on the screening of energy beet and alcohol production. Sugar Crops of China. NO. 3, 2006, pp 19-21.
[2]
JIANG YUE. Optimization of alcohol production from sugar beet fermented in solid-state. Haerbin: Northeast Forestry University, 2007.
[3]
SHI SHU-yi, DAI CUI-hong, CHENG DA-you. Screening high temperature tolerant yeast strains and technological optimization of ethanol fermentation of energy beet. Science & Technology Review. Vol. 29, NO. 3, 2011, pp 71-75.
[4]
ZHANG GUO-fu. Research of beet fermentation alcohol craft type by seeping out. Shenyang: Dalian Polytechnic University, 2008.
[5]
WANG TAI-tao, ZHAO LONG, ZHANG PAN. Primary experimental on vinasse fermentation for biogas production. China Biogas. Vol. 35, NO. 1, 2017, pp 60-62.
[6]
DENG SONG, YANG ZHI-min, HUANG LEI, CHEN YU-cheng, JIANG TAO. Optimization of control conditions in semi-continuous anaerobic fermentation of pig manure and corn stalk. Journal of Agricultural Biotechnology. Vol. 26, NO. 7, 2018, pp 1265-1274.
[7]
LIU JIE, LI YUAN-you, ZHENG SHI-mei. Problems and suggestions on processing ethanol with sweet sorghum straw. Journal of Jilin Agricultural Sciences. Vol. 32, NO. 2, 2007, p 62-65.
[8]
SUN QUN, LI JI-hong, FU XING-guo. Hydrothermal process for enzymatic hydrolysis of sweet sorghum bagasse from assf. Acta Energiae Solaris Sinica. Vol. 34, NO. 12, 2013, pp 2073-2077.
[9]
HU WEI, CHEN YU. Study on characteristics of biogas production of rice straw mixed with distiller, s grains of multiple–grains in anaerobic fermentation. Food and Fermentation Industries. Vol. 40, NO. 12, 2014, pp 15-19.
[10]
HUANG PING-hui, ZHANG SHU-ying, QIN QI-rong. The situation demand and countermeasures for natural gas resources in China. Xinjiang Petroleum Geology. Vol. 26, NO. 1, 2005, pp 105-107.
[11]
CHEN SI, XIONG CHENG-yong. Re-discussion on C/N ratio of straw biogas fermentation. China Biogas. NO. 2, 2009, pp 38-39.
[12]
ZHENG ZHAN-yao, YIN FANG, ZHANG WU-di, ZHAO XING-ling, LIU SHI-qing, WU KAI, etal. Experimental study on biogas production potential of Logan shell fermentation. Journal of Anhui Agricultural Science. Vol. 46, NO. 33, 2018, pp 161-164.
[13]
CHU LI-li, YANG GAI-he, ZHANG CUI-li. The biogas production efficiency of crop straws at different temperature. Agricultural Research in The Arid Areas. Vol. 26, NO. 2, 2008, p 190-193.
[14]
ZHOU YIN-cun, ZHAO XIN-shi, YANG DI, BI SHENG-lei, LU LONG, HU SHOU-zhen, etal. Effect of different wall-breaking pretreatment on biogas production of algae residue. China Biogas. Vol. 36, NO. 1, 2018, pp 26-31.
[15]
BAI NA, MEI ZI-li, FU ZHENG-ge. The effects of temperature on anaerobic digestion of three different straws for biogas production China Biogas. Vol. 29, NO. 1, 2011, pp 16-21.
[16]
ZHANG CUI-li, YANG GAI-HE, PU DONG-sheng. Effect of temperature on biogas production and fermentation period length from the anaerobic digestion of crop residue. Journal of Agro-environment science. Vol. 27, NO. 5, 2008, pp 2069-2074.
[17]
MING WANG, WEN ZHE-li, PENG FEI-li, SHUI PING-yan, YAN LIN-zhang. An alternative parameter to characterize biogas materials: Available carbon-nitrogen ratio. Waste Management. Vol. 62, 2017, pp 76-83.
[18]
ZHANG CUI-li. Study on the effect of temperature on characteristic of biogas production for anaerobic digestion. Yangling, China: Northwest A&F University, 2008.
[19]
LI JIN-juan, LIU FANG, FENG JIE. Effect of temperature and TS on biogas yield by anaerobic fermentation of wheat distiller’s grains. Liquor-marking Science Technology. NO. 1, 2011, pp 106-109.
[20]
WANG DIAN-long, WU BO, AI PING, XIN YA, HE MING-xiong, ZHANG YAN-lin. Effect of Two-step pretreatment on enzymatic hydrolysis and biogas fermentation of anaerobically digested fiber from VFAs production. Transactions of the Chinese Society for Agricultural Machinery. Vol. 49, NO. 3, 2018, pp 322-327.
[21]
GUO OU-yan, LI YI-bing, BAI HAO-rui, Effect of temperature on gasification characteristics of chicken feces and crop residue. Journal of Northwest A&F University. NO. 6, 2009, pp 137-144.
[22]
DUO ZI-lin. Effects of total solid concentration at different temperatures on biogas production characteristics of anaerobic fermentation. Yangling, China: Northwest A&F University, 2010.
[23]
GUO TING, XU SHUAI, LU XIAO-yu. Preliminary study on the biogas fermentation for mixture of straw and potale. Science and Technology of Food Industry. NO. 8, 2010, pp 248-250.
[24]
MU WEI-na, LI YU-cheng, WU CHAO, ZHANG XUE-sheng, WANG NING, GAO ZHAO-hui. Analysis of Microbial community in methane co-fermentation of straw & blue algae. Journal Microbiology. Vol. 37, NO. 1, 2017, pp 70-77.
[25]
HAN MENG-long, ZHU JI-ying, ZHANG GUO-kang. Effect of different inoculums on solid state anaerobic digestion of corn stover. Acta Scientiae Circumstantiae. Vol. 34, NO. 10, 2014, pp 2586-2591.
[26]
WANG YAN-jin, HUANG JUN, ZHANG QUAN-guo. Experimental study on biogas and fertilizer co-production of wheat straw dry anaerobic fermentation. Journal of Henan Agricultural University. Vol. 46, NO. 4, 2012, pp 402-405.
[27]
MA RU-xia, ZHAO YI-quan, LI JIA-wei, HUO ZHAO-chen, HONG YAN-hua, YAN LAI, etal. The optimization of nitrogen sources in anaerobic digestion of corn stover. Renewable Energy Resource. Vol. 36, NO. 11, 2018, pp 1593-1599.
[28]
YUE LING-liu, KAI FENG, HUAN LI. Rapid conversion from food waste to electricity by combining anaerobic fermentation and liquid catalytic fuel cell. Applied Energy. Vol. 1, 2019, pp 395-402.
Browse journals by subject