Ning Du scite author profile

Ning Du

2Publications

7Citation Statements Received

41Citation Statements Given

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Wuhan University of Technology

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Study on the biogas potential of anaerobic digestion of coffee husks wastes in Ethiopia

Zhang

et al. 2020

Waste Manag Res

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The poorly controlled discharge of coffee husks in Ethiopia causes severe environmental pollution and is a waste of resources. The volatile solid and carbon content in coffee husks waste indicates that it is rich in organic matter and has huge potential to produce biogas. This study investigated the feasibility of coffee husks to produce biomass through anaerobic digestion, based on temperature, initial pH, inoculum/substrate (I/S) ratio and carbon/nitrogen (C/N) ratio. The study demonstrated that the maximum production of biogas and methane reached 3359.6 ml and 2127.30 ml, respectively, under the conditions of mesophilic temperature (35±1°C), an initial pH of 7, an I/S ratio of 0.75 and a C/N ratio of 30. Based on this result, the effects of trace elements (Fe2+, Ni2+, Co2+) on biogas production and methane content were also explored. Compared with the group with no addition of trace elements, the experiment adding trace elements had significant enhancement effects on the production of biogas and methane, in which Fe2+ played a leading role ( p<0.05). Fe2+ promoted the hydrolysis and acidification of coffee husks, resulting in the production of a series of intermediates such as volatile fatty acids and the other kinds of dissolved organic matter. Furthermore, the cooperation of Ni2+, Co2+ and Fe2+ enhanced the activity of the enzyme system in methanogens, promoting methane production. The results in this paper show that coffee husks have clear biogas potential through anaerobic digestion, and its effective utilization could fulfill the dual purpose of solid waste reclamation and local environmental protection in Ethiopia.

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Simulation Analysis on Wastewater Anaerobic Tank Stench in Collecting Hood with Properties of Environmental Materials

Du²,

Chen

2014

AMR

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The relationship is very important between geometrical boundary parameters and mechanical ventilation airflow pattern of wastewater gas-collecting hood. Computational fluid dynamics (CFD) is an effective approach to study with standard κε turbulent model. CFD predominate results show that: the exhaust flow, tuyere pressure, velocity and pollutant concentration had a greater influence on the flow field distribution. Fiber Reinforced Polymer (FRP) stench-collecting hood can be used to anaerobic tank in long-term because of its environmental material properties for acid and wet.

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Ning Du

Study on the biogas potential of anaerobic digestion of coffee husks wastes in Ethiopia

Simulation Analysis on Wastewater Anaerobic Tank Stench in Collecting Hood with Properties of Environmental Materials

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