Environmental Sanitation Engineering ›› 2024, Vol. 32 ›› Issue (3): 47-53.doi: 10.19841/j.cnki.hjwsgc.2024.03.007

Previous Articles     Next Articles

Comparative Study on Anaerobic Digestion of Food Waste Enhanced by Biogas Residue Hydrochar and Biogas Residue Pyrochar

OUYANG Chuang, ZHANG Yurong, TAI Jun, XU Xianbao, XUE Gang, LI Xiang   

  1. 1. Shanghai Environmental Sanitation Engineering Design Institute Co.Ltd.; 2. College of Environmental Science and Engineering, Donghua University
  • Online:2024-07-02 Published:2024-07-02

PDF (PC)

468

PDF (Mobile)

7

Abstract: Anaerobic digestion (AD) of food waste could result in a large amount of biogas residue generation, which needs to be properly disposed. Biogas residue was prepared into hydrochar and pyrochar by hydrothermal and pyrolysis reaction, respectively. The effects of hydrochar and pyrochar on AD of food waste were compared. The results showed that compared with the control group (23.8 mL/g), the methane production of hydrochar group (dosage of 1, 5 and 10 g/L) was 24.0, 38.9 and 34.9 mL/g, which increased by 0.8%, 63.4% and 46.6%, respectively. The methane yield of pyrochar group (dosage of 1,5 and 10 g/L) was 29.7, 35.7 and 31.1 mL/g, which increased by 24.8%, 50.0% and 30.7%, respectively. Hydrochar and pyrochar amendment promoted the solubilization of organic matter. While the total relative abundance of hydrolytic acid-producing bacteria of Fastidiosipila, W5053, Propioniciclava, Actinomyces, and Norank_f__ST-12K33 increased from 73.0% to 84.6% and 82.0%, respectively. After adding hydrochar and pyrochar, the relative abundance of Methanosaeta was as high as 60.3% and 50.6% respectively, while the relative abundance of Methanobacterium was only 26.5% and 36.9%. Biochar from biogas residue could strengthen the AD of food waste, with the increase of dosage, methane production first increased and then decreased, the optimal dosage was 5 g/L. And the hydrochar performed better than pyrochar.

Key words: biogas residue, hydrochar, pyrochar, food waste, anaerobic digestion

[1] MA Xiang, CHEN Ping, LIANG Jing. A Study on the Physical and Chemical Characteristics of Biochar from Two Kinds of Municipal Organic Solid Waste [J]. Environmental Sanitation Engineering, 2024, 32(4): 29-35.
[2] ZHOU Yongquan, LI Xiaowei, TAI Jun. The Effects of Low-dosage Paper Addition on Co-Digestion of Food Waste and Kitchen Waste [J]. Environmental Sanitation Engineering, 2024, 32(4): 36-43.
[3] XU Wei, GAO Ting, YIN Jin. Characterization and Kinetic Analysis of Pyrolysis of Anaerobic Digestate from Kitchen Waste [J]. Environmental Sanitation Engineering, 2024, 32(1): 37-44.
[4] LIU Yanjun, TANG Qiange, WANG Sheng, LI Zhenkun, WANG Jianbing. Release Characteristics and Health Risks of Bioaerosol from Initial Degradation of Campus Food Waste [J]. Environmental Sanitation Engineering, 2024, 32(1): 57-67.
[5] ZHANG Dong. Analysis of Carbon Emissions in Different Treatment Process of Three-phase Organic Residues from Food Waste [J]. Environmental Sanitation Engineering, 2024, 32(1): 104-109.
[6] ZHU Yuanchao, ZHAO Zimin, ZHANG Jinsong. Caculation of Carbon Emission During Co-composting of Food Waste and Agricultural Waste and Garden Waste: A Case Study of A Treatment Facility in Town [J]. Environmental Sanitation Engineering, 2024, 32(1): 111-115.
[7] DU Xuexun, SHI Jingjing, ZHANG Siying. Study on Bioaugmentation to Promote Methanogenic Performance of Thermophilic Anaerobic Digestion of Food Waste [J]. Environmental Sanitation Engineering, 2023, 31(6): 46-53.
[8] QI Guangxia, LIU Zhengyang, XIA Yi, CHEN Sihan, HU Jinhui , REN Lianhai. The Impact of Physical Composition on the Composition and Emission Characteristics of Odorous Pollutants During Food Waste Composting [J]. Environmental Sanitation Engineering, 2023, 31(6): 54-62.
[9] MENG Wei, YU Chao, FAN Xiaoping, LIU Yan, CHU Shaohan, SU Hongyu. Design and Operation Examples of Typical Food Waste Treatment Project in Southeast Coastal Area of China [J]. Environmental Sanitation Engineering, 2023, 31(5): 28-34.
[10] YANG Na, WANG Qiao, LYU Fan, YU Boping, XU Qiyong, HE Pinjing. Comparative Analysis of the Physicochemical Characteristics between Household Food Waste and Restaurant Food Waste in China : Impact of Source Segregation [J]. Environmental Sanitation Engineering, 2023, 31(4): 7-16.
[11] LAN Yuanyuan, WU Song, WANG Lei. Study of Material Conditioning Alleviating Acidification Effect in Anaerobic Fermentation of Restaurant Food Waste and Its Mechanism [J]. Environmental Sanitation Engineering, 2023, 31(4): 27-34.
[12] DONG Chengyao, GU Xia, ZHAO Lei, ZHOU Yongquan, LI Xiang. Research Progress on Pretreatment of Anaerobic Fermentation of Kitchen Waste [J]. Environmental Sanitation Engineering, 2023, 31(3): 24-32.
[13] NIE Rong, PENG Wei, LYU Fan, ZHANG Hua, HE Pinjing. Research Progress on Degradation of Biodegradable Plastics During Anaerobic Digestion [J]. Environmental Sanitation Engineering, 2023, 31(2): 46-56.
[14] ZENG Fan, ZHAO Xinyi, LIAO Xiaofeng, ZHANG Jun, SHEN Lanlan, QIU Qili, DING Keqiang. Alleviation Effect of Corn Straw on Acid Inhibition in Combined Anaerobic Digestion of Mixture System [J]. Environmental Sanitation Engineering, 2023, 31(2): 63-69.
[15] WU Jian, HUA Yinfeng, CHEN Weihua. Effect Study of Cross-Flow Velocity on Membrane Flux of AnMBR for Food Waste [J]. Environmental Sanitation Engineering, 2023, 31(2): 70-76.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] . Application on Pretreatment Technology of Food Waste in Hangzhou   [J]. Environmental Sanitation Engineering, 2018, 26(3): 8 -10 .
[2] . Characteristics and Choice of Treatment Measures of Domestic Waste Simple Landfill in the Rural of China   [J]. Environmental Sanitation Engineering, 2018, 26(3): 11 -13 .
[3] . Ways and Efficiency Analysis of Landfill Gas Utilization in Beijing Liulitun Landfill   [J]. Environmental Sanitation Engineering, 2018, 26(3): 26 -28 .
[4] . Research on Energy Efficiency of Municipal Solid Waste Incineration Plant in China   [J]. Environmental Sanitation Engineering, 2018, 26(3): 39 -42 .
[5] . Discussion on Construction Thoughts of Smart Sanitation Platform in Beijing   [J]. Environmental Sanitation Engineering, 2018, 26(3): 91 -93 .
[6] . Analysis on General Plan of Domestic Waste Recycling Economy Industrial Park   [J]. Environmental Sanitation Engineering, 2018, 26(3): 94 -96 .
[7] . [J]. Environmental Sanitation Engineering, 2018, 26(1): 19 -22 .
[8] . [J]. Environmental Sanitation Engineering, 2018, 26(1): 31 -35 .
[9] . [J]. Environmental Sanitation Engineering, 2018, 26(1): 41 -44 .
[10] . [J]. Environmental Sanitation Engineering, 2018, 26(1): 45 -47 .
Copyright © Environmental Sanitation Engineering
Address: 107#, Weidi Road, Tianjin, P.R.C.    Postcode: 300201
Telephone: 022-28365069   Fax: 022-28365080 E-mail: csglwyjs10@tj.gov.cn
Supported by:Beijing Magtech