Items where Author is "Shuker, M.T."
Article
Memon, M.K. and Shuker, M.T. and Elraies, K.A. (2017) Study of blended surfactants to generate stable foam in presence of crude oil for gas mobility control. Journal of Petroleum Exploration and Production Technology, 7 (1). pp. 77-85.
Aulia, A. and Jeong, D. and Mohd Saaid, I. and Shuker, M.T. and El-Khatib, N.A. (2017) A new history matching sensitivity analysis framework with random forests and Plackett-Burman design. Society of Petroleum Engineers - SPE Symposium: Production Enhancement and Cost Optimisation 2017.
Hosseini, S.N. and Shuker, M.T. and Hosseini, Z. and Joao Tomocene, T. and Shabib-asl, A. and Sabet, M. (2015) The role of salinity and brine ions in interfacial tension reduction while using surfactant for enhanced oil recovery. Research Journal of Applied Sciences, Engineering and Technology, 9 (9). pp. 722-726.
Jaber, A.K. and Shuker, M.T. (2014) Integrated petrophysical evaluation of a heterogeneous shaly-sand reservoir: A case study in nahr umr formation-subba giant oil field, Iraq. Research Journal of Applied Sciences, Engineering and Technology, 8 (24). pp. 2388-2402.
Shafiq, M.U. and Kyaw, A. and Shuker, M.T. (2013) A comprehensive research to find suitable acid for sandstone acidizing. Advanced Materials Research, 787. pp. 274-280.
Conference or Workshop Item
Shafiq, M.U. and Shuker, M.T. (2013) Finding suitable acid for acidizing of low permeable sandstone formation: A research. In: UNSPECIFIED.
Ahmed, A. and Shuker, M.T. and Rehman, K. and Bahrami, H. and Memon, M.K. (2013) Reducing mechanical formation damage by minimizing interfacial tension and capillary pressure in tight gas. In: UNSPECIFIED.
Ahmed, A. and Shuker, M.T. and Rehman, K. and Bahrami, H. and Memon, M.K. (2013) Reducing mechanical formation damage by minimizing interfacial tension and capillary pressure in tight gas. In: UNSPECIFIED.
Ahmed, A. and Shuker, M.T. and Rehman, K. and Bahrami, H. and Memon, M.K. (2013) Reducing mechanical formation damage by minimizing interfacial tension and capillary pressure in tight gas. In: UNSPECIFIED.