Your search keyword '"Shen, Xiuli"' showing total 4 results

1. Oxygen dynamics, organic matter degradation and main gas emissions during pig manure composting: Effect of intermittent aeration.

Author

Zeng J, Shen X, Yin H, Sun X, Dong H, and Huang G

Subjects

Animals, Methane, Nitrogen metabolism, Oxygen, Soil, Swine, Composting, Manure

Abstract

To investigate the effect of intermittent aeration on oxygen dynamics, organic matter degradation and main gas emissions, a lab-scale pig manure composting experiment was conducted with intermittent aeration (I_A, 30-min on and 30-min off) and continuous aeration (C_A). Although aeration volume and oxygen supply of I_A was only half of C_A, I_A could obviously enhance the oxygen utilization efficiency by 96.67 % and reduce energy dissipation for aeration by 50.87 %. Based on the comprehensive analysis of total organic matter, total carbon, total nitrogen, cellulose, hemicellulose and lignin contents, there was no significant difference in organic matter degradation between I_A and C_A (p > 0.05). Moreover, a reduction of 21.71 %, 38.93 %, 44.40 % and 62.19 % of CH 4 , N 2 O and the total GHG emission equivalent as well as NH 3 emissions was realized, respectively, in I_A compared with C_A. Therefore, adopting intermittent aeration was a useful strategy and choice for high-efficiency, high-quality and environment-friendly composting., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

2. Spatial and temporal distribution of pore gas concentrations during mainstream large-scale trough composting in China.

Author

Zeng J, Shen X, Sun X, Liu N, Han L, and Huang G

Subjects

China, Oxygen, Soil, Temperature, Composting

Abstract

With the advantages of high treatment capacity and low operational cost, large-scale trough composting has become one of the mainstream composting patterns in composting plants in China. This study measured concentrations of O 2 , CO 2 , CH 4 and NH 3 on-site to investigate the spatial and temporal distribution of pore gas concentrations during mainstream large-scale trough composting in China. The results showed that the temperature in the center of the pile was obviously higher than that in the side of the pile. Pore O 2 concentration rapidly decreased and maintained <5% (in volume) for 38 days or more in both the center and side of the pile and effective O 2 diffusion occurred at most in every two contiguous layers. Pore CO 2 and CH 4 concentrations at each measurement point were positively correlated (0.436 ≤ r ≤ 0.570, P < 0.01) and the concentrations in the side of the pile were obviously lower than those in the center. The top layer exhibited highest pore O 2 concentration and lowest CO 2 and CH 4 concentrations, and the bottom layer was on the contrary. No significant differences in pore NH 3 concentrations between different layers or between different measurement points in the same layer were found. Therefore, mixing the center and the side of the pile when mechanical turning and adjusting the height of the pile according to the physical properties of bulking agents are suggested to optimize the oxygen distribution and promote the composting process during large-scale trough composting when the pile was naturally aerated, which will contribute to improving the current undesirable atmosphere environment in China., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

3. Dynamics of oxygen supply and consumption during mainstream large-scale composting in China.

Author

Zeng, Jianfei, Shen, Xiuli, Han, Lujia, and Huang, Guangqun

Subjects

*OXYGEN, *DYNAMICS, *COMPOSTING, *ORGANIC compounds, *AEROBIC conditions (Biochemistry)

Abstract

This study characterized some physicochemical and biological parameters to systematically evaluate the dynamics of oxygen supply and consumption during large-scale trough composting in China. The results showed that long active phases, low maximum temperatures, low organic matter losses and high pore methane concentrations were observed in different composting layers. Pore oxygen concentrations in the top, middle and bottom layers maintained <5 vol.% for 40, 42 and 45 days, respectively, which accounted for more than 89% of the whole period. After each mechanical turning, oxygen was consumed at a stable respiration rate to a concentration of 5 vol.% in no more than 99 min and remained anaerobic in the subsequent static condition. The daily percentage of time under aerobic condition was no more than 14% of a single day. Therefore, improving FAS, adjusting aeration interval or combining turning with forced aeration was suggested to provide sufficient oxygen during composting. [ABSTRACT FROM AUTHOR]

Published

2016

4. Effect of aeration interval on oxygen consumption and GHG emission during pig manure composting.

Author

Zeng, Jianfei, Yin, Hongjie, Shen, Xiuli, Liu, Ning, Ge, Jinyi, Han, Lujia, and Huang, Guangqun

Subjects

*SEWAGE aeration, *GREENHOUSE gas mitigation, *COMPOSTING, *SWINE manure, *OXYGEN

Abstract

To verify the optimal aeration interval for oxygen supply and consumption and investigate the effect of aeration interval on GHG emission, reactor-scale composting was conducted with different aeration intervals (0, 10, 30 and 50 min). Although O 2 was sufficiently supplied during aeration period, it could be consumed to <10 vol% only when the aeration interval was 50 min, indicating that an aeration interval more than 50 min would be inadvisable. Compared to continuous aeration, reductions of the total CH 4 and N 2 O emissions as well as the total GHG emission equivalent by 22.26–61.36%, 8.24–49.80% and 12.36–53.20%, respectively, was achieved through intermittent aeration. Specifically, both the total CH 4 and N 2 O emissions as well as the total GHG emission equivalent were inversely proportional to the duration of aeration interval (R 2  > 0.902), suggesting that lengthening the duration of aeration interval to some extent could effectively reduce GHG emission. [ABSTRACT FROM AUTHOR]

Published

2018