Kazawadi, DeodatusNtalikwa, JustinKombe, Godlisten2023-05-252023-05-252021Kazawadi, D., Ntalikwa, J., & Kombe, G. (2021). A review of intermediate pyrolysis as a technology of biomass conversion for coproduction of biooil and adsorption biochar. Journal of Renewable Energy, 2021, 1-10.DOI:https://doi.org/10.1155/2021/5533780http://hdl.handle.net/20.500.12661/4019Full text article. Also available at https://doi.org/10.1155/2021/5533780The agenda to utilize and efficiently convert biomass has been raised to alleviate environmental problems and pressure on the reliance on fossil fuel. Intermediate pyrolysis has the ability to treat different biomasses and coproduction of biooil and adsorption biochar. This review article aims to evaluate the appropriateness of intermediate pyrolysis for the coproduction of biooil and adsorption biochar. It was observed that coproduced biooil is of high quality, stable, and miscible that can be used directly to existing engines or be easily blended. The biochar coproduced is good for adsorption but is not stable for microbial attack and hence unsuitable in soil treatment but for hydrometallurgy. Since the process is capable of treating waste biomass, it is an opportunity for further investigations in areas where wastes are plenty and less utilized. To increase the effectiveness of this technology for coproduction, optimizing parameters, design of efficient reactors, and use of catalyst must be worked uponenBiomassPyrolysisBiooilFossil fuelEnvironmental problemsIntermediate pyrolysisEnvironmental protectionBiomass conversionPyrolysis reactionBiocharA review of intermediate pyrolysis as a technology of biomass conversion for coproduction of biooil and adsorption biocharArticle