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Thermomechanical deformation analysis of a tubular solid oxide steam electrolysis cell. (2023)
Conference Proceeding
KURUSHINA, V., RAJENDRAN, V., PRATHURU, A., HOSSAIN, M., FAISAL, N., SOMAN, A., HORRI, B.A. and CAI, Q. 2023. Thermomechanical deformation analysis of a tubular solid oxide steam electrolysis cell. In Proceedings of the 34th Thermal and fluid analysis workshop 2023 (TFAWS 2023), 21-25 August 2023, Maryland, USA. Washington: NASA [online], article number TFAWS23-ID-7. Available from: https://tfaws.nasa.gov/tfaws23/proceedings/

Technologies behind electrolysis cells for hydrogen production are making progress in terms of portability, cost reduction, performance enhancement, prolonged operation, and integration in stacks and with existing power infrastructure. The solid oxid... Read More about Thermomechanical deformation analysis of a tubular solid oxide steam electrolysis cell..

Developing an effective capacity sizing and energy management model for integrated hybrid photovoltaic-hydrogen energy systems within grid-connected buildings. (2022)
Conference Proceeding
ATTEYA, A.I., ALI, D. and HOSSAIN, M. 2022. Developing an effective capacity sizing and energy management model for integrated hybrid photovoltaic-hydrogen energy systems within grid-connected buildings. In Proceedings of the 11th International conference on Renewable power generation (RPG 2022): meeting net zero carbon, 22-23 September 2022, London, UK: [virtual event]. New York: IET [online], pages 204-212. Available from: https://doi.org/10.1049/icp.2022.1823

The ongoing energy transition has accelerated renewables integration within many sectors requiring addressment of their intermittency challenges. Implementing hydrogen energy storage with renewables is a solution; however, Renewable-Hydrogen hybrid s... Read More about Developing an effective capacity sizing and energy management model for integrated hybrid photovoltaic-hydrogen energy systems within grid-connected buildings..

Using nanoporous core-samples to mimic the effect of petrophysical parameters on natural gas flowrate in an unconventional gas reservoir. (2022)
Conference Proceeding
OGOUN, E., ABUNUMAH, O., AISUENI, F., HOSSAIN, M., GIWA, A. and GOBINA, E. 2022. Using nanoporous core-samples to mimic the effect of petrophysical parameters on natural gas flowrate in an unconventional gas reservoir. In Techconnect briefs 2022: papers from 2022 TechConnect world innovation conference and expo, 13-15 June 2022, Washington, USA. Danville: TechConnect [online], pages 67-70. Available from: https://briefs.techconnect.org/wp-content/volumes/TCB2022/pdf/352.pdf

Natural gas was for quite a long time regarded as an unwanted by-product of oil exploration and production that was mostly flared to the atmosphere. This happened because there was no feasible economic means of bringing it to the market. In this work... Read More about Using nanoporous core-samples to mimic the effect of petrophysical parameters on natural gas flowrate in an unconventional gas reservoir..

Using contact angle measurements for determination of the surface free energy of the ceramic membranes. (2022)
Conference Proceeding
HASHIM, I.A., AISUENI, F., OGUNLUDE, P., RAMALAN, M., OGOUN, E., HUSSAINI, M. and GOBINA, E. 2022. Using contact angle measurements for determination of the surface free energy of the ceramic membranes. In Techconnect briefs 2022: papers from 2022 TechConnect world innovation conference and expo, 13-15 June 2022, Washington, USA. Danville: TechConnect [online], pages 5-8. Available from: https://briefs.techconnect.org/wp-content/volumes/TCB2022/pdf/177.pdf

The surface free energy is one of the factors that characterises the surfaces of materials. The sessile drop method is the most popular method for determining its value. A contact angle between the surface and the edge of liquid droplets is measured... Read More about Using contact angle measurements for determination of the surface free energy of the ceramic membranes..

CFD modelling of pipe erosion due to sand transport. (2018)
Conference Proceeding
OGUNSESAN, O.A., HOSSAIN, M., IYI, D. and DHROUBI, M.G. 2018. CFD modelling of pipe erosion due to sand transport. In Wahab, M.A. (ed.) Proceedings of the 1st International conference on numerical modelling in engineering (NME 2018), 28-29 August 2018, Ghent, Belgium. Volume 2: numerical modelling in mechanical and materials engineering. Lecture notes in mechanical engineering. Singapore: Springer [online], pages 274-289. Available from: https://doi.org/10.1007/978-981-13-2273-0_22

Erosion caused by sand particles is a serious problem facing the oil and gas industry. Predicting pipe erosion due to sand transport is a complex process in multiphase flows due to the complex nature of the flow. Existing erosion studies are however... Read More about CFD modelling of pipe erosion due to sand transport..

Numerical investigation of two-phase flow induced local fluctuations and interactions of flow properties through elbow. (2018)
Conference Proceeding
CHINENYE-KANU, N.M., HOSSAIN, M., DROUBI, M.G. and ISLAM, S.Z. 2018. Numerical investigation of two-phase flow induced local fluctuations and interactions of flow properties through elbow. In Wahab, M.A. (ed.) Proceedings of the 1st International conference on numerical modelling in engineering (NME 2018), 28-29 August 2018, Ghent, Belgium. Volume 2: numerical modelling in mechanical and materials engineering. Lecture notes in mechanical engineering. Singapore: Springer [online], pages 124-141. Available from: https://doi.org/10.1007/978-981-13-2273-0_11

The local interactions and fluctuations of multiphase flow properties present in upward slug/churn flow patterns through a 900 pipe bend has been investigated. Numerical modelling technique using the Volume of Fluid method (VOF) and Reynolds Average... Read More about Numerical investigation of two-phase flow induced local fluctuations and interactions of flow properties through elbow..

Modelling multiphase flow in vertical pipe using CFD method. (2018)
Conference Proceeding
ALAITA, D., HOSSAIN, M. and ISLAM, S.Z. 2018. Modelling multiphase flow in vertical pipe using CFD method. In Wahab, M.A. (ed.) Proceedings of the 1st International conference on numerical modelling in engineering (NME 2018), 28-29 August 2018, Ghent, Belgium. Volume 2: numerical modelling in mechanical and materials engineering. Lecture notes in mechanical engineering. Singapore: Springer [online], pages 300-319. Available from: https://doi.org/10.1007/978-981-13-2273-0_24

Investigations of gas-liquid-solid flows in large diameter vertical pipes are scarce and detailed three phase flow study is still required to understand the flow interactions. Further investigation using high fidelity modelling is thus necessary due... Read More about Modelling multiphase flow in vertical pipe using CFD method..

Computational fluid dynamic analysis of sand erosion in 90 degree sharp bend geometry. (2016)
Conference Proceeding
DROUBI, M.G., TEBOWEI, R., ISLAM, S.Z., HOSSAIN, M. and MITCHELL, E. 2016. Computational fluid dynamic analysis of sand erosion in 90 degree sharp bend geometry. In Proceedings of the 9th International conference on computational fluid dynamics (ICCFD9), 11-15 July 2016, Istanbul, Turkey. Istanbul: International conference on computational fluid dynamics (ICCFD) [online], article ID ICCFD9-2016-128. Available from: http://iccfd9.itu.edu.tr/assets/pdf/papers/ICCFD9-2016-128.pdf.

The prediction of erosion damage due to sand presence during hydrocarbon production is a major threat to the integrity of the production facilities. Sand production from oil and gas reservoirs can cause a significant damage to different pipeline comp... Read More about Computational fluid dynamic analysis of sand erosion in 90 degree sharp bend geometry..

Stress effects on flow partitioning in fractured reservoirs: equivalent porous media versus poro-elasticity coupled modeling. (2013)
Conference Proceeding
SANAEE, R., OLUYEMI, G.F., HOSSAIN, M. and OYENEYIN, M.B. 2013. Stress effects on flow partitioning in fractured reservoirs: equivalent porous media versus poro-elasticity coupled modeling. In Pyrak-Nolte, L.J., Morris, J., Chan, A., Rostami, J. and Dershowitz, W. (eds.) Proceedings of the 47th U.S. rock mechanics/geomechanics American Rock Mechanics Association (ARMA) symposium 2013, 23-26 June 2013, San Francisco, USA. Alexandira, VA: American Rock Mechanics Association (ARMA), 3, pages 2329-2337.

In this paper the effects of overburden stress on fracture-matrix flow partitioning were numerically analyzed using two different numerical approaches; the analysis was validated using a fractured Clashach core flood laboratory experimental data. In... Read More about Stress effects on flow partitioning in fractured reservoirs: equivalent porous media versus poro-elasticity coupled modeling..