Dr. Thota Siva
Dr. Thota Siva
Assistant Professor (Contractual)
Qualification(s)
Ph.D. (Applied Mathematics) – National Institute of Technology Meghalaya, Shillong, India
M.Sc (Applied Mathematics) – Sri Venkateswara University, Tirupati, India
M.Sc (Applied Mathematics) – Sri Venkateswara University, Tirupati, India
Area of Interest
Fluid dynamics, Electrokinetic transport phenomena, Microfluidics
Courses Taught
Engineering Mathematics-I, Engineering Mathematics-II, Discrete Structures, Linear Algebra and Calculus for Engineers
Research Publications
T. Siva, B. Kumbhakar, S. Jangili, and P.K. Mondal, Unsteady electro-osmotic flow of couple stress fluid in a rotating microchannel: An analytical solution, “Physics of Fluids” Vol: 32 (10), Article ID: 102013, 2020. Impact Factor: 4.980, [Indexed in: SCIE] Q1 .DOI
T. Siva, S. Jangili, and B. Kumbhakar, Entropy generation on EMHD transport of couple stress fluid with slip-dependent zeta potential under electrokinetic effects, “International Journal of Thermal Sciences” Vol: 191, Article ID: 108339, 2023. Impact Factor: 4.779, [Indexed in: SCIE] Q1. DOI
T. Siva, D. Dubey, and S. Jangili, Rotational flow dynamics of electroosmotic transport of couple stress fluid in a microfluidic channel under electromagnetohydrodynamic and slip-dependent zeta potential effects, “Physics of Fluids”, Vol. 36 (9), 2024, Impact Factor: 4.980, [Indexed in: SCIE] Q1 (Accepted
T. Siva, S. Jangili, B. Kumbhakar, and P.K. Mondal, Unsteady electromagnetohydrodynamic flow of couple stress fluid through a microchannel: A theoretical analysis, “European Journal of Mechanics-B/Fluids” Vol: 95, Page No: 83-93, 2022. Impact Factor: 2.598, [Indexed in: SCIE] Q2. DOI
T. Siva, S. Jangili, and B. Kumbhakar, Entropy generation on EMHD transport of couple stress fluid with slip-dependent zeta potential under electrokinetic effects, “International Journal of Thermal Sciences” Vol: 191, Article ID: 108339, 2023. Impact Factor: 4.779, [Indexed in: SCIE] Q1. DOI
T. Siva, D. Dubey, and S. Jangili, Rotational flow dynamics of electroosmotic transport of couple stress fluid in a microfluidic channel under electromagnetohydrodynamic and slip-dependent zeta potential effects, “Physics of Fluids”, Vol. 36 (9), 2024, Impact Factor: 4.980, [Indexed in: SCIE] Q1 (Accepted
T. Siva, S. Jangili, B. Kumbhakar, and P.K. Mondal, Unsteady electromagnetohydrodynamic flow of couple stress fluid through a microchannel: A theoretical analysis, “European Journal of Mechanics-B/Fluids” Vol: 95, Page No: 83-93, 2022. Impact Factor: 2.598, [Indexed in: SCIE] Q2. DOI
Exams
Gate-2018, AP SET-2015