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Evaluation of WRF model performance with different microphysics schemes for extreme rainfall prediction in Lagos, Nigeria: implications for urban flood risk management. (2024)
Journal Article
OYEGBILE, O., CHAN, A., OOI, M., ANWAR, P., MOHAMED, A.A. and LI, L. 2024. Evaluation of WRF model performance with different microphysics schemes for extreme rainfall prediction in Lagos, Nigeria: implications for urban flood risk management. Bulletin of atmospheric science and technology [online], 5, article 19. Available from: https://doi.org/10.1007/s42865-024-00081-y

In Nigeria, particularly in urban areas like Lagos, flooding is a frequent natural hazard. In 2011, Lagos experienced one of its worst floods resulting in significant economic losses and displacement of people. In recent years, Lagos has continued to... Read More about Evaluation of WRF model performance with different microphysics schemes for extreme rainfall prediction in Lagos, Nigeria: implications for urban flood risk management..

Effect of slip and thermal gradient on micropolar nano suspension flow across a moving hydrogen fuel-cell membrane. (2024)
Journal Article
SACHHIN, S.M., MAHABALESHWAR, U.S. and CHAN. A. 2024. Effect of slip and thermal gradient on micropolar nano suspension flow across a moving hydrogen fuel-cell membrane. International journal of hydrogen energy [online], 63, pages 59-81. Available from: https://doi.org/10.1016/j.ijhydene.2024.02.332

The present article examines the micropolar fluid flow with nanofluid suspension across porous stretching/shrinking surfaces with added heat transfer through heat source/sink and radiation. The situation arises in the electrolytic fluid flow across f... Read More about Effect of slip and thermal gradient on micropolar nano suspension flow across a moving hydrogen fuel-cell membrane..

Stagnation-point Brinkman flow of nanofluid on a stretchable plate with thermal radiation. (2024)
Journal Article
MAHABALESHWAR, U.S., MAHESH, R. and CHAN, A. 2024. Stagnation-point Brinkman flow of nanofluid on a stretchable plate with thermal radiation. International journal of applied and computational mathematics [online], 10(2), article number 47. Available from: https://doi.org/10.1007/s40819-024-01685-w

The study is an analytical exploration of hybrid nanofluid flow at a stagnation-point with Brinkman effect on a stretchable plate with thermal radiation. All of the aforementioned factors were taken into account when developing the mathematical model... Read More about Stagnation-point Brinkman flow of nanofluid on a stretchable plate with thermal radiation..