Unlocking the Potential of Biogas Digesters: Sustainable Energy and Fertilizer Solutions for Households
DOI:
https://doi.org/10.61424/rjiee.v1i1.123Keywords:
Biogas digester, Environment, Methane, Energy.Abstract
This article examines the sustainability of biogas digesters for household adoption as a renewable energy solution while simultaneously providing organic fertilizer for agricultural use. Despite advancements in energy technology, households and communities continue to face challenges in accessing this technology due to limited infrastructure. Moreover, the International Energy Agency forecasts a 32% growth in the biogas sector in the coming years. The increasing demand and escalating costs of fossil fuels in recent years have drawn significant attention. In the United Kingdom, any alternative energy source that is both accessible and affordable presents a much-needed solution for households facing energy insecurity. A Biogas digester is a system used to produce biogas from organic waste from households or animals; the energy produced is for cooking, electricity, heating, and other applications. At the same time, the waste or by-product can be used as an organic fertilizer to improve the soil conditions. Biogas lowers greenhouse gas emissions, thereby protecting the environment. Biogas is, therefore, a means of managing organic waste and producing clean and renewable energy solutions for households. Our environment is characterized by deposits and patches of organic waste from households in different towns and cities that serve as excellent raw materials for biogas digesters. This research is necessary to find alternative energy to fossil fuels that are accessible and affordable. The biogas digester consists of a 200-liter plastic drum to represent the digester tank, pipes, gas collection unit, and valves. A medium-scale biogas digester was constructed using kitchen organic waste along with animal (cow dung) waste as substrates, and its performance was evaluated over 60 days. The biogas digester produced 250 liters of gas per kilogram of organic waste, with a methane content of 59%. Consequently, the slurry produced from the waste as a by-product was further dried and was rich in nutrients, making it an organic fertilizer suitable alternative to chemical fertilizers. The discoveries highlight the economic and environmental advantages of biogas digesters; although the high cost of initial setup and maintenance requirements pose a great challenge, it can be overcome by an increase in technical capacity building and policy support, which will encourage wide use of biogas digesters in our homes, villages, and communities as sustainable energy solutions.
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