Arkan Jasim Hadi


Faculty:  Engineering

Department: Chemical

Address: Shahan-Kasnazan-Erbil


Academic title: senior Lecture

Responsibility: Lecturer

General Expertise: Chemical Engineering

Special Expertise: Thermodynamic, Polymer recycling, Polymer nanocomposite 

Research Interests:

-  Phase equilibrium

- Polymer recycling

- Polymer nanocomposite



-  PhD Chemical Engineering

- Master Chemical Engineering

- BsC. Chemical Engineering



I am an academic staff currently working with the Chemical engineering department, Faculty of Engineering, Soran University in Erbil since October 2016. I received my Bachelor and Master of Science in Chemical Engineering from the Department of Chemical Engineering, College of Engineering, Tikrit University, Tikrit, Iraq in 1995 and 2005 respectively. I received my Ph.D. degree from the Faculty of Chemical and Natural Resource Engineering, University Malaysia Pahang Malaysia, Malaysia in   March 2013. I finished a post-doctoral fellow in August 2016 in University Malaysia Pahang.  I served as engineer in Baiji Refinery, Baiji, Iraq from September 1995 to May 1998 after that I was worked as process and operation engineering in sodium sulfate factory from May 1998 to November 2006, also served as Seiner Lecturer and an Assistance Professor in the Department of Chemical Engineering, College of Engineering, Tikrit University, Tikrit, Iraq from 2006 to 2015.


Publications: (Books, researches)
  • Thermodynamic Model for High Pressure Phase Behavior Of Carbon Dioxide In Several Physical Solvents At Different Temperatures
  • Gas-Liquid Equilibrium Prediction of CO2-Ethanol System at Moderate Pressures and Different Temperatures
  • Gas liquid equilibrium prediction of system (CO2-aqueous ethanol) at moderate pressure and different temperatures using PR-EOS.
  • Gas- Liquid Equilibrium Prediction of Ternary System (CO2- Ethanol-Water) at Moderate Pressures and Different Temperatures Using SRK-  EOS
  • Polyolefins Waste Materials Reconditioning Using Dissolution/Reprecipitation Method
  • Reconditioning Process Of Waste Low Density Polyethylene Using New Technique
  • Potential solvent for reconditioning polyolefin waste materials.
  • Recycling of polyolefins waste materials by dissolution/reprecipitation technique using an organic solvent
  • Quality Restoration of Waste Polyolefin Plastic Material through the Dissolution–Reprecipitation Technique
  • Dissolution/reprecipitation technique for waste polyolefin recycling using new pure and blend organic solvents
  • Comparison the Performance of Four Catalyst Types in the Calytic Dehaydration of Ethanol
  • Optimal Design of Industrial Reactor for Naphtha Thermal Cracking Process
  • Modified Correlation for Low Density Polyethylene (LDPE) solubility in Several Organic Solvents
  • Waste to Wealth-Unmodified and Organo-Modified Clay Effects on Mechanical and Thermal Properties of Waste Polypropylene
  • Prediction of Experimental Measurement Data for High Density Polyethylene and Polypropylene Solubility in Organic Solvents
  • Unmodified and Organo-Modified clay content effect on Mechanical and Thermal Properties of the Waste Low Density Polyethylene


Scientific Activities: (Conference, Workshop, Symposium..)

1.       Solubility Prediction of CO2 In Several Physical Liquid Solvents Using CHEMCAD and HYSYS Simulators

2.       Recycling of Polyolefins Waste Materials by Dissolution/Reprecipitation Technique Using a New Solvent.

3.       Comparison of Organic Solvents Effect on Polyolefin Waste Materials Recycling Using Dissolution/Reprecipitation Method