11 Papers
35 Citations
Ebenezer Ojo is an academic researcher from Strathclyde Institute of Pharmacy and Biomedical Sciences. The author has contributed to research in topics: Chlorella sorokiniana & Photobioreactor. The author has an hindex of 3, co-authored 10 publications. Previous affiliations of Ebenezer Ojo include University College London & Osun State University.
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Papers
Design and parallelisation of a miniature photobioreactor platform for microalgal culture evaluation and optimisation
TL;DR: The development and characterisation of a novel orbitally shaken twin-well mPBr, and its scale-out to a 24-well microplate format, suitable for optimisation of microalgae culture conditions and establishment of high cell density cultures are described.
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Design and development of a bio-digester for production of biogas from dual waste
Modestus O. Okwu,Olusegun David Samuel,Omonigho B. Otanocha,Promise P. Balogun,Ogugu J. Tega,Ebenezer Ojo +5 more
TL;DR: In this paper, a novel cost-effective bio-digester was explored to convert biological waste into useful clean energy, which was aimed to anaerobically digest locally sourced cow dung and chicken droppings, the design consideration is a batch horizontal 267'L digester made from cast iron with centrally positioned four-impeller shaft to enhance mixing.
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Engineering characterisation of a shaken, single-use photobioreactor for early stage microalgae cultivation using Chlorella sorokiniana
TL;DR: The utility of the SUPBr for early stage development of algal cultivation processes is demonstrated and the characterisation and culture performance of a novel, orbitally shaken, single-use photobioreactor system for microalgae cultivation is described.
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Towards optimal inorganic carbon delivery to microalgae culture
TL;DR: In this paper , the authors investigated the effect of bicarbonate feed rates and culture starting pH in the acidic, neutral, and basic regimes on the pH modulation, biomass accumulation, and product yield in a fed-batch system.
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Initial assessment of reuse of sustainable wastes for fibreboard production: the case of waste paper and water hyacinth
TL;DR: In this paper, new cement-bonded bi-composite fiberboard (FB) was made from water hyacinth (WaHy) and waste paper (WP).