Programme: Chemical Engineering
Permanent URI for this collectionhttps://repository.covenantuniversity.edu.ng/handle/123456789/30806
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Item Short review on the prospect of laser cladding for aluminum based alloys composite for automotive industries(RESEARCH ARTICLE, 2022-08) Agboola O.; Fayomi O. S. I.; Ayoola A.; Ayeni A. O.; Alagbe E. E.; Sadiku E. R.; Popoola P.Laser cladding is a growing technological method that utilizes a navigating high power laser for melting a small region of the substrate; it has a function of trapping and melting entering powder particles. Hence, the process leads to the development of a new stratum. Aluminum alloy Matrix composites afford properties suchlike high wear resistance, high tensile strength, lightweight; this composites is finding wide applications in automotive industry. This review presents a brief discussion on laser cladding for aluminum base alloys for automotive industry with emphasis on aluminum alloys matrix composite for automotive industry.Item Short review on solvent resistance nanofiltration membranes for the treatment of waste water(2022-08) Agboola O.; Fayomi O. S. I.; Sadiku R.; Popoola A. P. I; Adegbola A. T.; Moropeng I.; Oyebanji J. A.; Oluwasegun K. M.With the potential wastewater generated in modern chemical industries, separation of organic at more extreme conditions is inevitable. On the account of finding a sustainable and effective separation, the preparation of solvent-resistant Nanofiltration (SRNF) membranes appeared to be a promising solution. In this review, a short overview on SRNF and its benefits was given. We highlighted the efforts made in using SRNF for some industrial applications like bio-refinery and petrochemical. The performance evaluation of SRNF for different applications was also discussed, briefly. Factors responsible for the Stability of SRNF membrane and classification of SRNF Membranes were also discussed.Item Short overview on the mitigation of corrosion in coal gasification plant(RESEARCH ARTICLE, 2022-08) Agboola O.; Fayomi O. S. I.; Adegbola A. T.; Moropeng I.; Sani S. E.Tn a coal gasification plant the performance of components significantly degrade over time under extremely sulfiding environments of the extreme temperature coal gas. The use of newly discovered organic corrosion inhibitor such as DNA from plants and animals could mitigate corrosion in coal gasification plant. However, reports have revealed the deposition of an appropriate coating on a low cost alloy could enhance components resistance to the attack of sulfidation; hence, minimizing capital and working costs. Here, we review the coal gasification process and methods of mitigation corrosion in coal gasification plantItem Review on coal-fired power plants from post-combustion CO2 process and challenges(TECHNOLOGIES AND MATERIALS FOR RENEWABLE ENERGY, ENVIRONMENT AND SUSTAINABILITY: TMREES21Gr, 2022-05) Agboola O.; Moropeng M. L.; Fayomi O. S. I.; Oyebanji J. A.; Oluwasegun K. MThe capturing of CO2 from power plant flue gases offers unique chance to alleviate the emissions of coal-fired power plants to the environment. The fraction of CO2 captured and the increased production of CO2 that results from loss in the whole efficiency of power plants are determinant factors for the net emissions reduction to the atmosphere via carbon dioxide capture storage. Post-combustion capture is of great interest as it is easy to implement as to existing power plants. The use of post combustion capture in power plant was reviewed. The challenges of post combustion process were reviewed with possible solutions.