E
E.B. Gueguim Kana
Researcher at University of KwaZulu-Natal
Publications - 50
Citations - 1554
E.B. Gueguim Kana is an academic researcher from University of KwaZulu-Natal. The author has contributed to research in topics: Biohydrogen & Dark fermentation. The author has an hindex of 21, co-authored 40 publications receiving 1108 citations. Previous affiliations of E.B. Gueguim Kana include Ladoke Akintola University of Technology.
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Modeling and optimization of biogas production on saw dust and other co-substrates using Artificial Neural network and Genetic Algorithm.
TL;DR: In this paper, the authors reported the modeling and optimization of biogas production on mixed substrates of saw dust, cow dung, banana stem, rice bran and paper waste using Artificial Neural Network (ANN) coupling GA.
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Improving the quality of agro-wastes by solid-state fermentation : enhanced antioxidant activities and nutritional qualities
Agbaje Lateef,Julius Kola Oloke,E.B. Gueguim Kana,S. O. Oyeniyi,O. R. Onifade,A. O. Oyeleye,O. C. Oladosu,A. O. Oyelami +7 more
TL;DR: In this paper, a newly isolated fungal strain Rhizopus stolonifer LAU 07 was studied for improved nutritional quality by determining the crude protein, crude fibre, ash and lipid contents, and antioxidant activities.
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Valorisation of potato peel wastes for bioethanol production using simultaneous saccharification and fermentation: Process optimization and kinetic assessment
TL;DR: In this paper, the authors optimized bioethanol production from potato peel wastes on inputs of temperature, pH and solid loading using simultaneous saccharification and fermentation using the logistic and modified Gompertz models, respectively.
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Valorization of sugarcane bagasse for bioethanol production through simultaneous saccharification and fermentation: Optimization and kinetic studies
TL;DR: In this article, the authors focused on the valorization of sugarcane bagasse (SCB), which is a waste by-product from the sugar industry for ethanol production.
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Simultaneous saccharification and bioethanol production from corn cobs: Process optimization and kinetic studies.
TL;DR: It is demonstrated that microaerophilic rather than anaerobic culture conditions enhanced cell growth andBioethanol production, and that additional prehydrolysis steps do not significantly impact on the bioethanol concentration and conversion in SSF process.