“My vision for SRM AP is an inter-disciplinary environment that stimulates active, engaged learning and cutting edge research. We challenge our students to think critically and creatively, communicate clearly, and develop into thoughtful global citizens and leaders. Learning through discovery and interaction is more powerful and enduring than listening passively to lectures. We seek to equip our students with the cognitive tools to adapt to and seize opportunities offered by a rapidly changing world. Most of all, we stand apart with a network of associations with esteemed institutions around the world, so that students make their mark in a connected world.”
June 2019 to Till date, Assistant Professor | Indian Institute of Technology Madras.
July 2018 to May 2019, Adhoc Faculty | National Institute of Technology A.P.
September 2017 to March 2018, Post Doc Fellow | State University of New York Binghamton, USA.
April 2017 to September 2017, Pre-Doctoral Fellow | Indian Institute of Technology Madras, Chennai.
June 2012 to June 2013, Assistant Professor | S K R Engineering College, Chennai.
August 2008 to March 2009, Lecturer | Bapatla Engineering College, Bapatla.
Developing an effective cooling system to address the cooling challenges of electronic components using parallel microchannels based heat sinks.
Implementing simple technics such as altering surface mechanisms like surface tension of the fluid, to improve the hydrodynamic performance of heat sinks.
Exploring different diverse areas like miniaturization of R&AC systems and application of graphene sheets in desalination of water e.t.c.
Awards & Fellowships
2012, University Gold Medal in M.E., Anna University, Chennai
2017, Pre Doctoral Fellowship, Indian Institute of Technology Madras, Chennai
Publications in Peer Reviewed Journals:
Particle and Thermo-Hydraulic Maldistribution of Nanofluids In Parallel Microchannels - S. Maganti, P. Dhar, T. Sundararajan and S. K. Das- Microfluidics and Nanofluidics, 20 (7), 109 (2016).
Thermally Smart Characteristics of Nanofluids in Parallel Microchannel Systems for Mitigating Hot-spots in MEMS - S. Maganti, P. Dhar, T. Sundararajan and S. K. Das-IEEE Trans. Components, Packaging and Manufacturing Technology, 6 (12), 1834 – 1846 (2016).
Smart Viscoelastic and Self-Healing Characteristics of Graphene Nano-gels- P. Dhar, A. Katiyar and S. Maganti- Journal of Applied Physics, 120, 214304 (2016).
Superior Dielectric Breakdown Strength of Graphene and CNT Infused Nano-Oils- P. Dhar, A. Katiyar, S. Maganti, A Pattamatta And S. K. Das- IEEE Trans. Dielectrics and Electric Insulation, 23 (2), 943-956 (2016).
Enhanced Dielectric Breakdown Performance of Anatase and Rutile Titania Based Nano-Oils- A. Katiyar, P. Dhar, T. Nandi, S. Maganti and S. K. Das- IEEE Trans. Dielectrics and Electric Insulation, 23 (2), 943-956 (2016).
Heat spreader with parallel microchannel configurations for near-active cooling of MEMS- S. Maganti, P. Dhar, T. Sundararajan and S. K. Das- International Journal of Heat and Mass Transfer, 111, 570-581 (2017).
Selecting optimal parallel microchannel configuration(s) for active hot spot mitigation of realistic multicore microprocessors- S. Maganti, P. Dhar, T. Sundararajan and S. K. Das- Transactions of the ASME Journal of Heat Transfer, 139 (10), 102401 (2017).
Consequences of flow configuration and nanofluid transport on entropy generation in parallel microchannel cooling systems- S. Maganti, P. Dhar- International Journal of Heat and Mass Transfer, 109, 555–563 (2017).
Predicting Thermal History a Prior for Magnetic Nanoparticle Hyperthermia of Internal Carcinoma- Dhar and L. S. Maganti- Journal of Applied Physics, 122 (5), 054902 (2017).
Mitigating Non Uniform Heat Generation Induced Hot Spot (S) in Multicore Processors Using Nanofluids in Parallel Microchannels- S. Maganti, P. Dhar, T. Sundararajan and S. K. Das- International Journal of Thermal Sciences, 125, 185-196 (2018).
Electrohydrodynamic fibrillation governed enhanced thermal transport in dielectric colloids under field stimulus- Dhar, L. S. Maganti and A. R. Harikrishnan- Soft Matter, 14(21), 4278-4286 (2018).
Amplifying thermal conduction calibre of dielectric nano-colloids employing induced electrophoresis- Dhar, L. S. Maganti and A. R. Harikrishnan and C. Rajput- Experimental Thermal and Fluid Science, 106, 138-147 (2019).
Flow and Concentration Maldistribution of Nanofluid In Parallel Microchannels- S. Maganti, T. Sundararajan and S.K. Das, Proceedings of The 1st International And 23rdNational ISHMT-ASTFE Heat And Mass Transfer Conference, Trivandrum, India (2015).
Thermal Performance Of Nanofluids In Parallel Microchannel Systems – U,I,Z- S. Maganti, T. Sundararajan and S. K. Das, 3rd International Conference On Nanotechnology For Better Living, Srinagar, India, , May (2016).
Identifying the geometrical parameters governing fluid maldistribution in microscale flow distribution systems- V. Jaisawal, S. Maganti and P. Dhar, International Conference on Fluid Mechanics and Fluid Power (FMFP), NIT Allahabad, Allahabad (2016).
S. Maganti, T. Sundararajan and S. K. Das, Mitigation of non-uniform hot spots in Intel i7 processor using microchannels and nanofluids, International Conference on Fluid Mechanics and Fluid Power (FMFP), NIT Allahabad, Allahabad (2016).
Title: A SYSTEM AND METHOD FOR COOLING A HOT-SPOT DETECTED IN A MICROPROCESSOR
Application Number: 201811042884
Patent Authority: Intellectual property of India.