picture
About Me
Courses Taught
Professional Bodies
Research Projects
Publications

About Me

Full Name:
LIM CHIN WAI, DR.
Email:
Lchinwai@uniten.edu.my
Contact Number:
03-89212020 Ext: 2293
Department:
Department of Mechanical Engineering

Academic Qualifications

  1. PhD, University of Canterbury, New Zealand, 2012
  2. MSME, Purdue University, IUPUI, USA, 2004
  3. BSME, Purdue University, West Lafayette, USA, 1999

Working Experiences

Position Place of Work Start End

Courses Taught

  1. MEFB211 - Manufacturing Processes Lab
  2. MEHB213 - Thermodynamics I
  3. MEHB244 - Thermodynamics
  4. MEHB3013 - Thermodynamics II
  5. MEHB312 - Thermodynamics II
  6. MEHB323 - Heat Transfer
  7. MEHB4023 - Heating Ventilating & Air Conditioning
  8. MEHB413 - Heating Ventilating & Air Conditioning
  9. MEHB471 - Heat Transfer & App. Thermo. Lab.
  10. MEHB474 - Heat Transfer
  11. MEHD143 - Thermodynamics
  12. MEHD214 - Thermodynamics
  13. MEMB123 - Mechanics I: Statics
  14. MEMB214 - Mechanics I - Statics

Professional Bodies

  1. IEM: - 2007

Research Projects

Publications

  1. LIM CHIN WAI; Validity And Inherent Viscosity Of The Quiet Direct Simulation Method; Aip Conference Proceedings ; Volume 1333, Issue PART 1, 2011, Pages 902-909, ISSN: 0094243X, ISBN: 978-073540889-0, DOI: 10.1063/1.3562760; 01 Jul 2011; Conference Proceeding; SCOPUS
  2. LIM CHIN WAI; An Approximate Method For Solving Unsteady Transitional And Rarefied Flow Regimes In Pulsed Pressure Chemical Vapor Deposition Process Using The Quiet Direct Simulation Method; Aip Conference Proceedings ; Volume 1333, Issue PART 1, 2011, Pages 1039-1044, ISSN: 0094243X, ISBN: 978-073540889-0, DOI: 10.1063/1.3562782; 01 Jul 2011; Conference Proceeding; SCOPUS
  3. LIM CHIN WAI; The Direction Decoupled Quiet Direct Simulation Method For Rapid Simulation Of Axisymmetric Inviscid Unsteady Flow In Pulsed Pressure Chemical Vapour Deposition; Computers & Fluids; In Press, Accepted Manuscript, Available online 17 July 2013http://dx.doi.org/10.1016/j.compfluid.2013.07.012ISSN: 0045-7930Impact Factor: 1.47 ; 17 Jul 2013; Journal; ISI
  4. LIM CHIN WAI; Numerical Investigation Of Trapezoidal Grooved Microchannel Heat Sink Using Nanofluids; Thermochimica Acta; http://dx.doi.org/10.1016/j.tca.2013.09.011 Volume 573, Pages 39–56; 10 Dec 2013; Journal; ISI
  5. LIM CHIN WAI; Thermal And Hydraulic Characteristics Of Nanofluid In A Triangular Grooved Microchannel Heat Sink (Tgmchs); Applied Mathematics And Computation; Volume 246, 1 November 2014, Pages 168–183; 01 Nov 2014; Journal; ISI
  6. LIM CHIN WAI, Firas Basim Ismail; Solar Thermal Power: Appraisal Of Solar Power Towers; Matec Web Of Conferences; Volume :225, Issue No :04003, Article ID : https://doi.org/10.1051/matecconf/201822504003 , Page Start :1, Page End :5, ISSN :201822504003 ; 05 Nov 2018; Journal; SCOPUS
  7. LIM CHIN WAI, JOHNNY KOH SIAW PAW, Dr., TIONG SIEH KIONG, Assoc. Prof. Dr.; An Artificial Intelligent Approach For The Optimization Of OrganicRankine Cycle Power Generation Systems; Indonesian Journal Of Electrical Engineering And Computer Science; Volume :14, Issue No :1, Article ID :10.11591/ijeecs.v14.i1.pp340-345, Page Start :340, Page End :345, ISSN :2502-4752; 01 Apr 2019; Journal; SCOPUS
  8. Tan Jian Ding, LIM CHIN WAI, JOHNNY KOH SIAW PAW, Dr., TIONG SIEH KIONG, Assoc. Prof. Dr.; An Adaptive Gravitational Search Algorithm For Global Optimization; Indonesian Journal Of Electrical Engineering And Computer Science; Volume :16, Issue No :2, Article ID :10.11591/ijeecs.v16.i2.pp724-729, Page Start :724, Page End :729, ISSN :2502-4752; 01 Nov 2019; Journal; SCOPUS
  9. LIM CHIN WAI; The Performance Of Waste Heat Recovery Systems Using Steam Rankine Cycle And Organic Rankine Cycle For Power Generation; International Journal Of Engineering And Advanced Technology (Ijeat); Volume :9, Issue No :2, Article ID :10.35940/ijeat.B4926.129219, Page Start :4172, Page End :4177, ISSN : 2249 – 8958; 01 Dec 2019; Journal; SCOPUS
  10. LIM CHIN WAI, Firas Basim Ismail; Solar Tower Power: The Impact Of External Receiver On Optimal Performance And Energy Storage; International Journal Of Engineering And Advanced Technology (Ijeat); Volume :9, Issue No :2, Article ID :10.35940/ijeat.B4929.129219 , Page Start :4195, Page End :4202, ISSN :2249 – 8958; 15 Dec 2019; Journal; Indexing In Progress