مختصری از من

سوابق تحصیلی

  • 1389 تا 1393
    دکتری مهندسی شیمی
    گرایش مهندسی شیمی /دانشگاه تکنولوژی مالزی
  • 1385 تا 1387
    کارشناسی ارشد مهندسی شیمی
    گرایش مهندسی شیمی /دانشگاه آزاد اسلامی واحد ماهشهر / معدل 17.24
  • 1381 تا 1385
    کارشناسی مهندسی شیمی
    گرایش پتروشیمی /دانشگاه آزاد اسلامی واحد ماهشهر / معدل 16.54

پیشینه شغلی

  • تیر ۱۳۹۳ تا هم اکنون
    پتروشیمی رازی
    مهندسی شیمی/ کارشناس فرایند
  • فروردین ۱۳۸۷ تا فروردین ۱۳۸۹
    پتروشیمی رازی
    مهندسی شیمی/ بازرس ایمنی
  • فروردین ۱۳۸۵ تا فروردین ۱۳۸۷
    شرکت کیمیا صنعت شرق
    مهندسی شیمی/ فرایند

سوابق آموزشی پژوهشی

  • 1395
    1. -Modeling of activity coefficients of aqueous solution with the Extended UNIQUAC model, 2nd Technical Conference of Thermodynamics, Iran University of Science and Technology, 12th of May 2009. 2. - Energy use and greenhouse gases emissions from Razi petrochemical company, First Conference on Carbon Market and Clean Development Mechanism in Petrochemical and Allied Indust , Natural Petrochemical Company, Tehran ,8 October 2009 3. -Study of efficient parameters to increase heat transfer coefficient in Nano fluids. National seminar of chemical engineering, Azad university, Islamshahr, 3 March 2010 4. CFD Modeling of Bubble Rise Velocity in Fluidized Bed Reactor, The 2nd international conference of process in process engineering and advance materials,12th Jun 2012, Kuala Lumpur, Malaysia 5. Computational Fluid Dynamic Modeling of Bubble Behavior with Different Particle Diameter in Fluidization Systems, Sustainable future energy 2012 and 10th see forum innovations for sustainable and secure energy, 21-23 November 2012, Brunei, Darussalam. 6. Computational Fluid Dynamic and Population Balance Modeling of Industrial Fluidized Bed Polymerization Reactor, Proceedings of the 6th International Conference on Process Systems Engineering (PSE ASIA) 25 - 27 June 2013, Kuala Lumpur. 7. CFD modeling of membrane channel: application to gas separation, Conference on Membrane Science and Technology 2013 (MST 2013), 27-29 August 2013, kuala Lumpor, Malaysia. 8. Prediction of Minimum Fluidization Velocity Using a CFD-PBM Coupled Model in an Industrial Gas Phase Polymerization, Journal of Engineering Science, Vol. 10, 95–105, 2014. 9. "2D CFD-PBM simulation of hydrodynamic and particle growth in an industrial gas phase fluidized bed polymerization reactor." Chemical Engineering Research and Design 104 (2015): 53-67. (IF=2.525). 10. Model-based analysis of impact of distributor on the performance of polydisperse gas phase fluidized bed polymerization reactors, Powder Technology 267 (2014) 398–411. (IF= 2.759) 11. "Evaluation of hydrodynamic behavior of the perforated gas distributor of industrial gas phase polymerization reactor using CFD-PBM coupled model." Computers & Chemical Engineering 82 (2015): 344-361. (IF= 2.581). 12. A CFD–PBM coupled model of hydrodynamics and mixing/segregation in an industrial gas-phase polymerization reactor, chemical engineering research and design 9 6 ( 2 0 1 5 ) 103–120. (IF=2.525). 13. Comparison of equilibrium and non-equilibrium models of a tray column forpost-combustionCO2 capture using DEA-promoted potassium carbonate solution, Chemical Engineering Science122(2015)291–298.(IF=2.75) 14. Rate-based simulation and comparison of various promoters for CO2 capture in industrial DEA-promoted potassium carbonate absorption unit, Journal of Industrial and Engineering Chemistry 22 (2015) 306–316.(IF= 4.179). 15. Rate-based simulation of DEA promoted potassium carbonate process, Proceedings of the 6th International Conference on Process Systems Engineering (PSE ASIA) 25 - 27 June 2013, Kuala Lumpur. 16. Investigation of process parameters on DAP production, 3rd chemical engineering symposium 2015, Tehran, Iran. 17. CO 2 capture with potassium carbonate solutions: A state-of-the-art review. International Journal of Greenhouse Gas Control 41 (2015): 142-162. (IF= 4.064). 18. Modeling Study on CO2 and H2S Simultaneous Removal using MDEA Solution, Journal of Industrial and Engineering Chemistry 34 (2016): 344-355. .(IF= 4.179). 19. 2D CFD-PBM Coupled Model of Particle Growth in an Industrial Gas Phase Fluidized Bed Polymerization Reactor, The 2015 International Conference on Chemical Engineering on Chemical Engineering, Yogyakarta, Indonesia. 20. Activity Coefficients Modeling of Alkyl Ammonium Salts Aqueous Solutions Using Extended-UNIQUAC Thermodynamic Model, submitted to fluid phase equilibria. 21. Hydrodynamics and particle mixing/segregation measurements in an industrial gas phase olefin polymerization reactor using image processing technique and CFD-PBM model, Aramesh, R., Akbari, V., Shamiri, A., Hussain, M. A., & Aghamohammadi, N. Measurement 83 (2016): 106-122.(IF= 1.742). 22. Correlation and Measurement of Density and Viscosity of Aqueous Mixtures of Glycerol and N-Methyldiethanolamine (MDEA), Monoethanolamine (MEA), Piperazine (PZ) and Ionic Liquid, Journal of Molecular Liquids, Available online 2 July 2016.(IF= 2.74). 23. CFD modeling of gas-solid fluidized bed reactor: A state of the art review, Submitted to advanced powder technology. 24. Activity coefficients modelling of alkyl ammonium salts aqueous solutions using Extended-UNIQUAC model , Journal of Solution Chemistry, P1-19.(IF=1.256).
  • 1394
    استاد مدعو جهت راهنمائی پروژه های کارشناسی ارشد
  • 1390
    تدریس در دانشگاه آزاد اسلامی واحد ماهشهر

نقاط قوت رفتاری

  • انعطاف پذیری
  • تعهد و انگیزه خدمت
  • توسعه فردی (خود توسعه ای)
  • حل مسئله و تصمیم گیری
  • خود مدیریتی
  • مدیریت فشار و استرس (انطباق پذیری)
  • کار تیمی (روحیه مشارکتی)
  • مسئولیت پذیری و پاسخگویی

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