Abstract
Water, energy, and food are essential elements for human life, but face constant pressure resulting from economic development, climate change, and other global processes. Predictions of rapid economic growth, increasing population, and urbanization in the coming decades point to rapidly increasing demand for all three. In this context, improved management of the interactions among water, energy, and food requires an integrated “nexus” approach. This paper focuses on a specific nexus case: biogas generated from organic waste, a renewable source of energy created in livestock production, which can have water-quality impacts if waste enters water bodies. An innovative model is presented to make biogas and biomethane systems feasible, termed “biogas condominiums” (based on collective action given that small- and medium-scale farms on their own cannot afford the necessary investments). Based on the “farm to fuel” concept, animal waste and manure are converted into electrical and thermal energy, biofuel for transportation, and high-quality biofertilizer. This nexus approach provides multiple economic, environmental, and social benefits in both rural and urban areas, including reduction of ground and surface water pollution, decrease of fossil fuels dependence, and mitigation of greenhouse gases emissions, among others. The research finds that biogas condominiums create benefits for the whole biogas supply chain, which includes farmers, agroindustry, input providers, and local communities. The study estimated that biomethane potential in Brazil could substitute the country’s entire diesel and gasoline imports as well as 44% of the total diesel demand. In the United States, biomethane potential can meet 16% of diesel demand and significantly diversify the energy matrix.
Highlights
Recent significant global population increases and future predictions raise sustainability challenges for water, energy, food, and other sectors
This paper concludes with assessment of the implementation of collective production of biomethane with cost and technological implications for urban transport mobility, considering the resource scenarios and public policies in both Brazil and the U.S Despite implementation and upscaling challenges, the results suggest that such arrangements bring considerable community benefits, enhance regional energy security, and contribute to a cleaner energy matrix
Environmental: With projections of livestock production increases in the coming years, the proper treatment of waste is essential, strengthening the need to use biogas and biomethane systems; promotion of synergies between the water–energy–food nexus; water and soil quality enhance though anaerobic digestion; environmental sanitation in the properties that compose the condominium and the region where it is located; reduction of pathogenic vectors; better spatial organization of the farms and cleanliness; reduction of GHG emissions with the biogas system and with the optimized logistics proposed in agroenergy condominiums; stimulate the less dependence on fossil fuels and vulnerability to depend only in few sources of energy; and environmental awareness and better joint action of communities
Summary
Recent significant global population increases and future predictions raise sustainability challenges for water, energy, food, and other sectors. The current world population of 7.3 billion is projected to reach 8.5 billion by 2030, 9.7 billion in 2050 and 11.2 billion in 2100 [1]. In this context, an extremely high-priority concern is to address interlinked water, energy, and food (WEF) systems. The WEF “nexus” refers to the dynamics and trade-offs among interlinked resources—pillars that support the existence and survival of human life. This resource-security challenge is summed up as,. “an urgent issue everywhere, and strong drivers of development and land use change, exacerbated by climate change, require new knowledge to achieve integrated solution using a nexus-based approach to assess inter-dependencies” [2].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
