A. I. McCord scite author profile

Experts have suggested that microscale biogas systems offer a source of renewable energy that improves indoor air quality, but such impacts have not been directly measured. This study documented cooking behaviors and measured 2.5-μm particulate matter (PM ), carbon monoxide (CO), and sulfur dioxide (SO ) concentrations within 14 institutional kitchens in Kampala, Uganda, that prepare meals using biogas (n=5), a mixture of biogas and fuelwood (n=3), and fuelwood (n=6). Small institutions (10-30 people) with biogas kitchens had 99% lower concentrations of PM (21 μg/m ) than fuelwood kitchens (3100 μg/m ). Larger institutions (>100 people) had biogas systems that produced insufficient gas and relied on fuelwood to meet over 90% of their energy needs. PM concentrations in these biogas-firewood kitchens were equivalent to concentrations in fuelwood kitchens. Although concentrations of hydrogen sulfide (H S) in biogas were as high as 2000 ppm, 75% of systems had undetectable H S levels (<100 ppm) in the biogas. Kitchens using biogas with high H S had correspondingly higher SO concentrations in the kitchen air. However, even the highest SO concentration in biogas kitchens (150 μg/m ) was lower than SO concentration in fuelwood kitchens (390 μg/m ). The results suggest that biogas systems can offer air quality improvements if sized properly for energy demands.

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Anaerobic digestion in Uganda: risks and opportunities for integration of waste management and agricultural systems

McCord

Stefanos

Tumwesige

et al. 2019

Renew. Agric. Food Syst.

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Much of the global population lacks access to basic public sanitation, energy and fertilizers. Micro-scale anaerobic digestion presents an opportunity for low-cost decentralized waste management that creates valuable co-products of renewable energy and organic fertilizer. However, field-based assessments of system performance and clearly articulated guidelines for digestate management and field application are needed. Feedstocks and effluent from seven digesters in Kampala, Uganda were monitored for standard wastewater and fertilizer metrics including indicator organisms (Escherichia coli and fecal coliform), chemical oxygen demand (COD), biological oxygen demand (BOD5), total Kjeldahl nitrogen (TKN), total phosphorous (TP), heavy metals, pH, temperature and total solids (TS) over 2 yr. Results reveal that digester effluent does not meet standards for wastewater discharge or international safety standards for field application. Data indicate that digestate could be a suitable source of fertilizer (TKN = 1467 mg L−1, TP = 214 mg L−1) but poses issues for water quality if not managed properly (TS = 26,091 mg L−1, COD = 3471 mg L−1 and BOD5 = 246 mg L−1). While effluent from the digester contained pathogen indicator organisms (fecal coliform = 8.13 × 105 CFU/100 ml, E. coli = 3.27 × 105 CFU/100 ml), they were lower than the influent concentrations, and lower than reported concentrations in drainage canals. All digestate samples contained little to no heavy metals suggesting effective source separation. Data suggest that micro-scale biogas systems have potential to improve waste handling and meet standards associated with fertilizer application with proper post-digestion treatment.

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Portable Electrification Using Biogas Systems

Cherry

Rios

McCord

et al. 2014

Procedia Engineering

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A. I. McCord

The impact of biogas and fuelwood use on institutional kitchen air quality in Kampala, Uganda

Anaerobic digestion in Uganda: risks and opportunities for integration of waste management and agricultural systems

Portable Electrification Using Biogas Systems

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