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Dr. Mathew Joseph
Ph.D (Cooling Systems for Thermal Management Applications);M.Tech (Thermal & Fluids Engineering);B.Tech (Mechanical Engineering)
Associate Professor & HoD
DEPARTMENT OF MECHANICAL ENGINEERING

Dr. Mathew Joseph graduated in Mechanical Engineering from St. Joseph’s College of Engineering and Technology, Palai in 2006 and completed M. Tech in Thermal and Fluids Engineering from IIT Bombay in 2011. He has worked with Amal Jyothi College of Engineering Kanjirapally (2006-2014) and Mar Baselios Christian College of Engineering and Technology Peermade (2014-2017), in various capacities. Thereafter, in July 2017, he joined School of Materials Science and Engineering (SMSE) at National Institute of Technology Calicut (NIT Calicut), as full-time research scholar with MHRD fellowship to pursue his doctoral studies. Under the supervision of Prof. Dr. V. Sajith (Head, SMSE), Dr. Mathew Joseph successfully defended his PhD Thesis "Enhanced Phase Change Materials based Cooling Systems for Thermal Management of Electronics" in September 2020. Dr. Mathew’s major areas of research interest include experimental heat transfer, synthesis and characterisation of nanomaterials, application of nanomaterials in thermal systems and thermal management using enhanced phase change materials (PCMs).

RSET Unique Id: 31924
Area of Interest: Phase change materials, Application of nanomaterials in engineering, Experimental heat transfer, Nanofluids, Nanoencapsulation, Material synthesis
Memberships(If Any) IEEE, ISTE
Email mathewj@rajagiritech.edu.in
ORCID_iD https://orcid.org/0000-0003-0702-2643
Google Scholar ID https://scholar.google.co.in/citations?user=vi-AC-8AAAAJ&hl=en
PUBLICATION-CONFERENCE/JOURNAL DETAILS
Year Title of the Paper-Conference/Journal Details
2022 Heat transfer phenomena of copper-graphene nanocomposite coated aluminium heat spreaders: An interferometric study
Applied Thermal Engineering (Elsevier), Impact Factor 5.296, Volume 212, 25 July 2022, 118545https://doi.org/10.1016/j.applthermaleng.2022.118545
2022 Heat transfer enhancement using CNT coated needle electrodes in corona wind discharge system
European Physical Journal Plus
2022 Investigations on Mechanical Properties of Wood Composite for Sustainable Manufacturing
i-SMaRT 2022
2021 Characterisation of heat dissipation from PCM based heat sinks using Mach Zehnder Interferometry
Heat and Mass Transfer (Springer) Impact factor 2.464 https://doi.org/10.1007/s00231-021-03101-1
2021 Investigations on chitin and coconut fiber reinforcements on mechanical and moisture absorption properties of corn starch bioplastics
https://doi.org/10.1016/j.matpr.2021.12.585
2021 Comparison of Metal oxide and Composite phase change material based nanofluids as coolants in mini channel
International Communications in Heat and Mass Transfer https://doi.org/10.1016/j.icheatmasstransfer.2021.105541 (Elsevier), Impact Factor 5.683
2020 Novel Evaporatively Cooled Split Air-Conditioner
Cooling India Magazine, Vo. 7, 2011, pp. 1-14
2020 THERMAL MANAGEMENT OF ELECTRONICS USING CNT LOADED PHASE CHANGE MATERIAL BASED HEAT SINKS
16th UK Heat Transfer Conference (UKHTC2019) 8-10 September 2019, Nottingham
2020 An investigation on heat transfer performance of polystyrene encapsulated n-octadecane based nanofluid in square channel
Applied Thermal Engineering (Elsevier) Impact Factor 5.295 https://doi.org/10.1016/j.applthermaleng.2018.10.120
2020 Graphene enhanced paraffin nanocomposite based hybrid cooling system for thermal management of electronics
Applied Thermal Engineering (Elsevier) 5.295 https://doi.org/10.1016/j.applthermaleng.2019.114342
2020 An experimental investigation on the evaporation of polystyrene encapsulated phase change composite material based nanofluids
Applied Thermal Engineering (Elsevier) 5.295 https://doi.org/10.1016/j.applthermaleng.2019.114862
2020 Thermal Performance of Buildings: Case Study and Experimental Validation of Educational Building
Vol.4, 2015, pp. 4968-4974
2020 Experimental investigation on the cooling performance of polystyrene encapsulated n-Docosane based nanofluid in mini channel heat sink
Heat and Mass Transfer (Springer) Impact factor 2.464 https://doi.org/10.1007/s00231-021-03068-z