Effect of high-voltage pulsed electric field (HPEF) pretreatment on biogas production rates of hybrid Pennisetum by anaerobic fermentation

Effect of high-voltage pulsed electric field (HPEF) pretreatment on biogas production rates of hybrid Pennisetum by anaerobic fermentation

In this paper, the raw materials of hybrid Pennisetum were pretreated in different conditions of high voltage pulsed electric field (HPEF) to improve its material utilization ratios and biogas production rates of anaerobic fermentation. Then, anaerobic digestion experiments were conducted within 32...

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Main Authors: Baijuan Wang, Ting Chen, Xiangdong Qin, Qi Wu, Yan Zhao, Shunxing Bai, Wen Peng, Bo Feng
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2018-02-01
Series:Natural Gas Industry B
Online Access:http://www.sciencedirect.com/science/article/pii/S2352854017301870
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spelling doaj-b992f6ebacb245638fd99fa1ac7e149a2021-03-02T10:02:43ZengKeAi Communications Co., Ltd.Natural Gas Industry B2352-85402018-02-01514853Effect of high-voltage pulsed electric field (HPEF) pretreatment on biogas production rates of hybrid Pennisetum by anaerobic fermentationBaijuan Wang0Ting Chen1Xiangdong Qin2Qi Wu3Yan Zhao4Shunxing Bai5Wen Peng6Bo Feng7Yunnan Agricultural University, Kunming, Yunnan 650201, China; Corresponding author.Yunnan Agricultural University, Kunming, Yunnan 650201, ChinaYunnan Agricultural University, Kunming, Yunnan 650201, China; Engineering and Research Center for Industrial Biogas Technology of Yunnan Province University, Kunming, Yunnan 650201, ChinaYunnan Agricultural University, Kunming, Yunnan 650201, ChinaYunnan Agricultural University, Kunming, Yunnan 650201, ChinaYunnan Agricultural University, Kunming, Yunnan 650201, China; Engineering and Research Center for Industrial Biogas Technology of Yunnan Province University, Kunming, Yunnan 650201, ChinaYunnan Agricultural University, Kunming, Yunnan 650201, ChinaYunnan Agricultural University, Kunming, Yunnan 650201, ChinaIn this paper, the raw materials of hybrid Pennisetum were pretreated in different conditions of high voltage pulsed electric field (HPEF) to improve its material utilization ratios and biogas production rates of anaerobic fermentation. Then, anaerobic digestion experiments were conducted within 32 days at moderate temperature (35 °C) with TS mass fraction (6%), inoculation rate (20%) and initial pH (7.0). It is indicated that compared with the control group, 9 groups of hybrid Pennisetum pretreated by HPEF are obviously superior in gas production efficiency of anaerobic fermentation, and higher in cumulative gas production, peak daily gas production and maximum methane concentration; that the most remarkable stimulation occurs in the HPEF condition of 15 kV/120 Hz/60 min, in that situation, the cumulative gas production in the fermentation period of 32 days is up to 9587 mL, 26.95% higher than that of the control group, the peak daily gas production increases and the range of peak period extends. It is demonstrated that the optimal HPEF pretreatment time is 60 min and three HPEF parameters have a better effect on gas production in the order of voltage > time > frequency; and that the effect degree of treatment parameters on peak daily gas production is voltage, frequency and time in turn. It is concluded that HPEF can improve material utilization ratio and gas production rate of hybrid Pennisetum by anaerobic fermentation and shorten the gas production cycle. By virtue of this physical pretreatment method, the resource of Pennisetum is utilized sufficiently and the classes of energy plants are enlarged effectively. Keywords: Hybrid Pennisetum, Anaerobic fermentation, High voltage pulsed electric field (HPEF), Biogas, Material utilization ratio, Gas generation rate, Model, Stimulationhttp://www.sciencedirect.com/science/article/pii/S2352854017301870
collection DOAJ
language English
format Article
sources DOAJ
author Baijuan Wang
Ting Chen
Xiangdong Qin
Qi Wu
Yan Zhao
Shunxing Bai
Wen Peng
Bo Feng
spellingShingle Baijuan Wang
Ting Chen
Xiangdong Qin
Qi Wu
Yan Zhao
Shunxing Bai
Wen Peng
Bo Feng
Effect of high-voltage pulsed electric field (HPEF) pretreatment on biogas production rates of hybrid Pennisetum by anaerobic fermentation
Natural Gas Industry B
author_facet Baijuan Wang
Ting Chen
Xiangdong Qin
Qi Wu
Yan Zhao
Shunxing Bai
Wen Peng
Bo Feng
author_sort Baijuan Wang
title Effect of high-voltage pulsed electric field (HPEF) pretreatment on biogas production rates of hybrid Pennisetum by anaerobic fermentation
title_short Effect of high-voltage pulsed electric field (HPEF) pretreatment on biogas production rates of hybrid Pennisetum by anaerobic fermentation
title_full Effect of high-voltage pulsed electric field (HPEF) pretreatment on biogas production rates of hybrid Pennisetum by anaerobic fermentation
title_fullStr Effect of high-voltage pulsed electric field (HPEF) pretreatment on biogas production rates of hybrid Pennisetum by anaerobic fermentation
title_full_unstemmed Effect of high-voltage pulsed electric field (HPEF) pretreatment on biogas production rates of hybrid Pennisetum by anaerobic fermentation
title_sort effect of high-voltage pulsed electric field (hpef) pretreatment on biogas production rates of hybrid pennisetum by anaerobic fermentation
publisher KeAi Communications Co., Ltd.
series Natural Gas Industry B
issn 2352-8540
publishDate 2018-02-01
description In this paper, the raw materials of hybrid Pennisetum were pretreated in different conditions of high voltage pulsed electric field (HPEF) to improve its material utilization ratios and biogas production rates of anaerobic fermentation. Then, anaerobic digestion experiments were conducted within 32 days at moderate temperature (35 °C) with TS mass fraction (6%), inoculation rate (20%) and initial pH (7.0). It is indicated that compared with the control group, 9 groups of hybrid Pennisetum pretreated by HPEF are obviously superior in gas production efficiency of anaerobic fermentation, and higher in cumulative gas production, peak daily gas production and maximum methane concentration; that the most remarkable stimulation occurs in the HPEF condition of 15 kV/120 Hz/60 min, in that situation, the cumulative gas production in the fermentation period of 32 days is up to 9587 mL, 26.95% higher than that of the control group, the peak daily gas production increases and the range of peak period extends. It is demonstrated that the optimal HPEF pretreatment time is 60 min and three HPEF parameters have a better effect on gas production in the order of voltage > time > frequency; and that the effect degree of treatment parameters on peak daily gas production is voltage, frequency and time in turn. It is concluded that HPEF can improve material utilization ratio and gas production rate of hybrid Pennisetum by anaerobic fermentation and shorten the gas production cycle. By virtue of this physical pretreatment method, the resource of Pennisetum is utilized sufficiently and the classes of energy plants are enlarged effectively. Keywords: Hybrid Pennisetum, Anaerobic fermentation, High voltage pulsed electric field (HPEF), Biogas, Material utilization ratio, Gas generation rate, Model, Stimulation
url http://www.sciencedirect.com/science/article/pii/S2352854017301870
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