CURRICULUM VITAE

  • Eastern Mediterranean University -Mechanical Engineering (Undergraduate, 2008)
  • Eastern Mediterranean University -Mechanical Engineering (Undergraduate, 2012)
  • Eastern Mediterranean University -Mechanical Engineering (Undergraduate, 2016)
  • M. Abid, T.A.H Ratlamwala and U. Atikol. Performance Assessment of parabolic dish and parabolic trough solar thermal power plant using nanofluids and molten salts 'A comparative study", International Journal Of Energy Research Int. J. Energy Res. (2015) DOI: 10.1002/er.3479
  • Muhammad. Abid, T.A.H Ratlamwala, U. Atikol. Solar Assisted Multi-Generation System Using Nanofluids: A Comparative Analysis. International journal of Hydrogen Energy. HE-D-16-02261 (Accepted)
  • Eric C. OKONKWO, Chinedu F. OKWOSE, Muhammad ABID, Tahir A.H. RATLAMWALA. Second law analysis and exergo-economics optimization of a solar tower driven combined cycle power plant using supercritical CO2. Journal of Energy Engineering Vol 144, issue 3. March 2018
  • M. S. Khan, Muhammad. Abid, T.A.H Ratlamwala. Energy, exergy, and economic feasibility analyses of a solar driven 60 MW conventional steam power plant using nanofluid. Iranian Journal of Science and Technology. Transactions of Mechanical engineering DOI10.1007/s40997-018-0149-x. 2018
  • Tahir A. H. Ratlamwala, Muhammad. Abid. Performance Analysis of Solar Assisted Multi-Effect Absorption Cooling Systems Using Nanofluids: A Comparative Analyses. International Journal of Energy Research. Int J Energy Res. 2018; 1‐15. https://doi.org/10.1002/er.3980
  • Eric C. OKONKWO, Muhammad ABID, Tahir A.H. RATLAMWALA. Numerical analysis of heat transfer enhancement in a parabolic trough collector based on geometry modifications and working fluid usage. Journal of Solar Energy Engineering. J. Sol. Energy Eng 140(5), 051009 May 29, 2018
  • Eric C. OKONKWO, Muhammad ABID, Tahir A.H. RATLAMWALA. Effects of synthetic-oil nanofluids and absorber geometries on the exergetic performance of the parabolic trough collector. International Journal of Energy Research. Int J Energy Res. DOI: 10.1002/er.4099
  • Eric C. OKONKWO, Edidiong A. ESSIEN, Evidence AKHAYERE, Muhammad ABID, Doga KAVAZ, Tahir A.H. RATLAMWALA. Performance analysis of a parabolic trough collector using water-based green-synthesized OLE-TiO2 and BH-SiO2 nanofluids. Solar Energy https://doi.org/10.1016/j.solener.2018.06.012 2018
  • Abid, Muhammad, Khan, M.S. and Ratlamwala, T.A.H. (2018) Techno-environmental analysis of a parabolic dish assisted recompression with and without reheat s-CO2 Brayton cycle, Int. J. Exergy, Vol. 27, No. 4, pp.527–552.
  • Eric C. Okonkwo, Muhammad Abid, Tahir A.H. Ratlamwala, Serkan Abbasoglu, Mustafa Dagbasi. Optimal analysis of entropy generation and heat transfer in parabolic trough collector using Olive leaf synthesized TiO2/water nanofluids. Journal of Solar Energy Engineering: Including Wind Energy and Building Energy Conservation. DOI: 10.1115/1.4041847
  • Eric C. OKONKWO, Muhammad ABID, Tahir A.H. RATLAMWALA. A comparative study of heat transfer enhancement in parabolic trough collector based on modified absorber geometry. Journal of Energy Engineering, EYENG (Accepted)
  • Muhammad Sajid Khan, Muhammad Abid, Hafiz Muhammad Ali, Khuram Pervez Amber, Muhammad Ansar Bashir, Samina Javed. Comparative performance Assessment of Solar Dish Assisted S-CO2 Brayton Cycle Using Nano fluids. Applied Thermal Engineering 10.1016/j.applthermaleng.2018.11.021
  • Eric C. OKONKWO, Muhammad ABID, Tahir A.H. RATLAMWALA. Energy, Exergy, Exergoeconomic, and Exergo-environmental) analysis of a parabolic trough collector using a converging-diverging receiver tube. International Journal of Exergy. IJEX_203073 (Accepted)
  • Muhammad Abid, Victor Adebayo, Ugur Atikol Energetic and Exegetic Analysis of A Novel Multi-Generation System Using Solar Power Tower. International Journal of Exergy. IJEX_235690 (Accepted)
  • Eric C. OKONKWO, Edidiong A. ESSIEN, Muhammad ABID, Doga KAVAZ, Tahir A.H. RATLAMWALA. Olive leaf synthesized nanofluids for solar parabolic trough collector- Thermal performance evaluation. Journal of Thermal Science and Engineering Applications (Accepted)
  • Eric C. Okonkwo, Michael J Adedeji, Muhammad Abid, Tahir A.H. Ratlamwala. Thermodynamic analysis of energy storage supported multi-generation system. Energy Storage (Accepted)
  • Michael J. Adedeji, Tonderai Ruwa, Muhammad Abid, Tahir A. H. Ratlamwala, Mustafa Dagbasi. Energy, Exergy, Economic and Environmental analysis of Photovoltaic Thermal Systems for Absorption Cooling Application. Energy Procedia. Volume 142, December 2017, Pages 916-923
  • Muhammad ABID, M. S. Khan, Tahir A.H. RATLAMWALA. Comparative Energy, Exergy and Exergo-Economic Analysis of Solar Driven Supercritical Carbon Dioxide Power and Hydrogen Generation Cycle. International journal of Hydrogen energy. (Accepted)
  • Eric C. OKONKWO, Ifeoluwa WOLE-OSHO, Doga KAVAZ, Muhammad ABID, Comparison of Experimental and Theoretical Methods of Obtaining the Thermal Properties of Alumina/ Iron Mono and Hybrid Nanofluids. Journal of Thermal Analysis and Calorimetry
  • Eric C. OKONKWO, Humphery Adun, Akinola babtunde, Muhammad ABID, Tahir A.H. RATLAMWALA. Entropy generation minimization in a parabolic trough collector operating with SiO2-water nanofluids using the genetic algorithm and artificial neural network. Journal of Thermal Science and Engineering Applications. DOI: 10.1115/1.4044755
  • Muhammad ABID, M. S. Khan, Tahir A.H. RATLAMWALA. Thermodynamic performance evaluation of a solar parabolic dish assisted multi-generation system. Journal of Solar Energy Engineering: Including Wind Energy and Building Energy Conservation. SOL-18-1329. (Accepted)
  • Muhammad S. KHAN, Khuram P. AMBER, Hafiz M. ALI, Muhammad ABID, Tahir A. H. RATLAMWALA, Samina JAVED. Performance analysis of solar assisted multigenerational system using therminol vp1 based nanofluids: a comparative study. Thermal Science
  • Ratlamwala, T.A.H. Muhammad Abid. Performance Analysis of Solar Assisted Multi-Effect Absorption Cooling Systems Using Nanofluids: A Comparative Analyses. The 9th International Exergy, Energy and Environment Symposium, Paper No: IEEES-2017-214, 14-17 May 2017, Split, Croatia.
  • Salisu Lawal, Muhammad Abid, Mustafa Dagbashi. Energy and exergy analysis of single and double effect solar assisted absorption refrigeration systems using LiBr-H2O. 7th. International 100% Renewable Energy Conference. 18-20 May 2017. Istanbul, Turkey
  • Muhammad Abid, Ratlamwala, T.A.H. and Atikol, U., Solar Assisted Multi-Generation System Using Nanofluids: A Comparative Analyzes. The 8th International Exergy, Energy and Environment Symposium, Paper No: IEEES-2016-344, 01-04 May 2016, Antalya, Turkey.
  • Muhammad Abid, Ratlamwala, T.A.H. and Atikol, U., Comparative energy and exergy analyses of parabolic trough solar thermal power plant using nanofluids. The 7th International Exergy, Energy and Environment Symposium, Paper No: C-24, 27-30 April 2015, Valenciennes, France.
  • Muhammad. Abid, Hikmet Ş. Aybar. Experimental Investigation of Thermal Conductivity through Nanofluids. 8th Nano science and nanotechnology congress, 25-29 June, 2012. Ankara Turkey.
  • Muhammad. Abid, Hikmet Ş. Aybar. Design and testing of small wind turbine in Gazimagusa. 10th International Conference on Clean Energy (ICCI-2010), 15-17 September, 2010 Gazimagusa ' N. Cyprus, Turkey
  • Michael J. Adedeji, Tonderai Ruwa, Muhammad Abid, Tahir A. H. Ratlamwala, Mustafa Dagbasi. Energy, Exergy, Economic and Environmental analysis of Photovoltaic Thermal Systems for Absorption Cooling Application. 9th International Conference on Applied Energy, ICAE2017, 21-24 August 2017, Cardiff, UK.
  • Abdallah El Mohamad, Meliz Hastunç, Muhammad Abid. Thermodynamic analysis of a Hybrid Solar-Wind power plant in Lebanon- A case study for Deir Ammar El Baddawi. 8th. International 100% Renewable Energy Conference. 07-09 May 2018. Istanbul, Turkey.
  • Muhammad Abid, Victor Adebayo, Ugur Atikol. Thermodynamic analysis of a novel solar central reciever multi-generation system with hydrogen production. 16th International Conference on Clean Energy (ICCE-2018), 09-11 May, 2018 Gazimagusa – N. Cyprus, Turkey
  • Eric C. OKONKWO, Edidiong A. ESSIEN, Evidence AKHAYERE, Muhammad ABID, Doga KAVAZ, Tahir A.H. RATLAMWALA. Performance Evaluation of a Parabolic Trough Collector Using Oil-Based Green-Synthesized Nanofluids. 16th International Conference on Clean Energy (ICCE-2018) Famagusta, Northern Cyprus, Turkey
  • Victor Adebayo, Muhammad Abid, Ugur Atikol. Energy and exergy analysis of a tri-generation power plant assisted on solar power tower. 7th Global Conference on Global Warming (GCGW-2018) June 24-28, 2018 Izmir, Turkey.
  • Eric C. OKONKWO, Muhammad ABID, Tahir A.H. RATLAMWALA. 4-E (Energy, Exergy, Exergo-economic, and Exergo-environmental) analysis of a parabolic trough collector using a converging-diverging receiver tube. 7th Global Conference on Global Warming (GCGW-2018) June 24-28, 2018 Izmir, Turkey.
  • Muhammad Abid, Ratlamwala, T.A.H. and Atikol, U., Comparative energy and exergy analyses of parabolic trough solar thermal power plant using nanofluids. Exergy for Better Environment and Sustainability: Volume I: Heat and Mass Transfer, Energy Assessment. Springer, 2017.
  • Eric Chekwube Okonkwo. A comparative study of heat transfer enchantment in PTSC based on receiver geometry and multi-fluids
  • Enitan Adeleke Balogun. Performance Comparison of Solar Assisted Multi-Effect Absorption Systems Using Nanofluids
  • Özün Gülle. Energy and exergy analysis of solar PV panels located at Cyprus International University North Cyprus
  • Hassan Musa. Techno-economic analysis of parabolic dish assisted thermal power plants using Multi-fluids
  • Victor Adebayo. Thermodynamic performance assessment of a novel solar based multi-generation system
  • Ahmad Abdulkadir. First and second law analysis of CPVT power plant using nanofluids under Cyprus conditions
  • AbuBakar Sadiq. Performance Comparison of Solar Powered Steam Power plants
  • Muhammad Nasr. Design and Analysis of Solar Powered Adsorption Refrigeration System
  • Salisu Lawal: Energy and exergy analysis of single and double effect solar assisted absorption refrigeration systems using LiBr-H2O
  • Solar power, Thermodynamics, Heat Transfer
  • Coordinator Energy Systems Engineering 15/09/2018