Department of Engineering and Scientific Services, National Centre for Agricultural Mechanization, Ilorin, Nigeria.
World Journal of Advanced Research and Reviews, 2025, 25(02), 1882-1899
Article DOI: 10.30574/wjarr.2025.25.2.0244
Received on 13 December 2024; revised on 18 February 2025; accepted on 21 February 2025
A large proportion of global gas consumption is derived from naturally occurring sources that are not readily available and accessible by a common man in the street. This has continued to pose serious challenges to researchers in developing suitable alternatives to the naturally occurring gas supply source. A notable problem associated with the use of gas from natural sources is that it contributes to global warming as a result of the release into the environment of the related by-products from its exploration, production, and usage. The cow dung used in this study consists of 6 % moisture, 15 ash, 96 total solids, 80 % volatile solids, 8.1 pH, and 20 % fixed solids. The result of the characterization revealed 5 % moisture, 5.2 % ash, 95 % total solid, 89 % volatile solid, 6.6 pH, and 11 % fixed solid. The pH of the mixture of PCCD is 7.4 and PCCDBC is 7.6 which is an improvement to the individual pH of cattle dung and pineapple crown. Hence, both cow dung and pineapple crowns are suitable for biogas production.
Biogas; Cow Dung; Pineapple Crowns; Biodigester
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Raheem Olatunji Jimoh, Busari Ayodeji Ajala, Segun Emmanuel Sunmonu, Olusegun William Adelere, Muhammed Olalekan Hassan and Abdulwaheed Ayo Ayantola. Development of a domestic batch bio-digester for pineapple crowns and cow dung and characterization of feedstocks. World Journal of Advanced Research and Reviews, 2025, 25(02), 1882-1899. Article DOI: https://doi.org/10.30574/wjarr.2025.25.2.0244.
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