Advancing the predictive techno-economic and lifecycle assessment of prairie grass and manure co-digestion for renewable natural gas applications
Katherine Wild, Juan Carlos Dominguez, Lisa Schulte Moore, Mark Mba Wright

TL;DR
This study shows that co-digesting prairie grass and manure can boost renewable natural gas production while improving economic and environmental outcomes.
Contribution
The integration of ADM1 into TEA and LCA frameworks for prairie grass and manure co-digestion is novel.
Findings
A 1:9 prairie-to-manure ratio achieved the highest methane yield (227 mL/gVS) and lowest MFSP ($41.88/GJ).
Co-digestion increased RNG yields by 39% compared to prairie-only digestion.
Manure-based scenarios reduced global warming potential, while prairie-based scenarios reduced ecotoxicity.
Abstract
Prairie grass remains an underutilized agricultural resource that could provide economic, environmental, and ecological benefits to the bioeconomy. Prairie grass and manure anaerobic digestion is a promising pathway for renewable natural gas (RNG) production, but there is limited information on how co-digestion ratios impact RNG performance. This study integrates the Anaerobic Digestion Model No. 1 (ADM1) into a techno-economic analysis (TEA) and life cycle assessment (LCA) framework to evaluate RNG production via co-digestion of prairie biomass and cattle manure. Simulations across eleven feedstock ratios showed that co-digestion can increase methane yields compared to mono-digestion of prairie biomass. The highest methane production rate (227 mL/gVS) and the lowest minimum fuel selling price (MFSP) of $41.88/GJ occurred at a 1:9 prairie-to-manure volatile solids (VS) ratio. RNG yields…
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Taxonomy
TopicsAnaerobic Digestion and Biogas Production · Global Energy and Sustainability Research · Water-Energy-Food Nexus Studies
