Abstract
The wastewater industry is undergoing a paradigm shift from focusing solely on treatment to incorporating concepts aimed at mitigating environmental impacts such as energy and nutrient recovery and water reuse. This study uses life cycle assessment and life cycle cost analysis to investigate the effect of expanding anaerobic digestion (AD) capacity and adding combined heat and power on environmental and cost indicators at a mid-sized wastewater treatment facility (WWTF) in Massachusetts, USA. Since 2014, Massachusetts has banned the disposal of organic waste from commercial organizations producing more than one ton of material per week. The WWTF’s additional digester capacity allows the co-digestion of municipal solids with a food-based engineered bioslurry due to this ban. Study data were compiled for several AD feedstock quantity and performance scenarios, and compared to a baseline scenario representative of historic plant operations prior to co-digestion. Reductions in environmental impact are demonstrated for six of eight environmental impacts, including global climate change potential and cumulative energy demand. Eutrophication potential increases by 10 percent and 24 percent across assessed scenarios. Water use remains relatively constant across scenarios. Facility energy production increases dramatically with co-digestion, satisfying 100 percent of the WWTF’s thermal energy requirement and producing surplus electricity assuming full AD capacity utilization.
Highlights
Municipal waste service providers are under continual pressure to improve their economic and environmental efficiency
This study presents the results of a combined life cycle assessment (LCA) and life cycle cost analysis (LCCA) for a wastewater treatment facility (WWTF) that is expanding its anaerobic co-digestion (AcD) capacity
The base anaerobic digestion (AD) performance scenario leads to relative reductions in impact between 46 and 108 percent in these impact categories in the full capacity scenario when 100 percent of the expanded AD capacity is being utilized for source separated organic (SSO) co-digestion and energy production
Summary
Municipal waste service providers are under continual pressure to improve their economic and environmental efficiency. In the USA for example, nearly 1 percent of all electricity consumption is attributable to municipal wastewater treatment facilities (WWTF), with up to 80 percent of that allocated to aeration and sludge processing By diverting food waste from landfills to digesters at existing WWTF, anaerobic co-digestion (AcD) of municipal sludge and food waste can generate energy (McCarty et al ), reduce solid waste volumes, and recover valuable nutrients (Guest et al )
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