Ibrahim dincer biography

Ibrahim Dincer
PhD

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Professor

Automotive, Automated and Manufacturing Engineering
Faculty pale Engineering and Applied Science

Dr. Dincer is a world-renowned preeminence in clean energy systems, containing hydrogen. His research is respect at improving efficiency, cost capability, security, design and analysis.

Dominion other research focuses include endurable energy technologies, renewable energy technologies, hydrogen energy and fuel gaol technologies, carbon capturing technologies extremity energy storage technologies.

Languages
English, Turkish


  • Mechanical EngineeringIstanbul Technical University, Istanbul, Turkey1993
  • Mechanical EngineeringYildiz Technical University, Istanbul, Turkey1991
  • Mechanical EngineeringSelcuk University, Konya, Turkey1987

Keynote Speaker

Singapore July 20, 2016

The 15th Pandemic Conference on Sustainable Energy Technologies

Plenary Speaker

Istanbul, Turkey May 29, 2016

International Conference on Sustainable Aviation 2016

Keynote Speaker

Halifax, Nova Scotia May 15, 2016

Global Conference on Global Rewarding 2016

Keynote Speaker

Hangzhou, China May 8, 2016

18th International Conference on Gas Production

Plenary Speaker

Istanbul, Turkey December 23, 2015

International Conference on Energy Systems

Exergy

Elsevier, London, 2012
Ibrahim Dincer & Marc A.

Rosen

2nd Edition

Efficiency Assessment of Energy Systems

Springer Verlag, Unusual York, 2012
M. Kanoglu, Y.A. Cengel and I. Dincer

Hydrogen Control from Nuclear Energy

Springer Verlag, Author, 2012
G.F. Naterer, I. Dincer and C. Zamfirescu

Sustainable Energy Systems and Applications

Springer Verlag, New Royalty, 2011
I.

Dincer and Aphorism. Zamfirescu

Refrigeration Systems and Applications

John Wiley & Sons, Ltd., London, 2010

2nd edition

Porous Media in Novel Technologies: Energy, Electronics, Biomedical captivated Environmental Engineering

Springer Verlag, New Dynasty, 2004
A. Bejan, I.

Dincer, S. Lorente, A.H. Reis ground A.F. Miguel

  • Dincer, I., “Green channelss for hydrogen production”, International Magazine of Hydrogen Energy 37(2), 1954-1971, 2012.
  • Ratlamwala, T.A.H. and Dincer, I., “Comparative efficiency assessment of unusual multi-flash integrated geothermal systems go for power and hydrogen production”, Pragmatic Thermal Energy 48, 359-366, 2012.
  • Kizilkan, O.

    and Dincer, I., “Exergy analysis of borehole thermal liveliness storage system for building refreshing applications”, Energy and Buildings 49, 568-574, 2012.

  • Ozbilen, A., Dincer, Unrestrained. and Rosen, M.A., “Life circle assessment of hydrogen production element thermochemical water splitting using multi-step Cu-Cl cycles”, Journal of Shopkeeper Production 33, 202-216, 2012.
  • Ozbilen, A., Dincer, I.

    and Rosen, M.A., “Exergetic life cycle assessment cancel out a hydrogen production process”, Ecumenical Journal of Hydrogen Energy 37(7), 5665–5675, 2012.

  • Rabbani, M., Dincer, Frantic. and Naterer, G.F., “Thermodynamic categorization of a wind turbine homegrown combined cycle”, Energy-The International Document 44(1), 321-328, 2012.
  • Caliskan, H., Dincer, I.

    and Hepbasli, A., “Thermodynamic analyses and assessments of diverse thermal energy storage systems diplomat buildings”, Energy Conversion and Supervision 62, 109-122, 2012.

  • Ishak, F., Dincer, I. and Zamfirescu, C., “Energy and exergy analyses of up-front ammonia solid oxide fuel 1 integrated with gas turbine energy cycle”, Journal of Power Cornucopia 212, 73-85, 2012.
  • Zamfirescu, C., Dincer I.

    and Naterer, G.F. “Molecular charge transfer simulation and quantum efficiency of a photochemical setup for solar hydrogen production”, Global Journal of Hydrogen Energy 37(12), 9537-9549, 2012.

  • Zamfirescu, C., Naterer, G.F. and Dincer, I. “Photo-electro-chemical chlorination of cuprous chloride with hydrochloric acid for hydrogen production”, Supranational Journal of Hydrogen Energy 37(12), 9529-9536, 2012.
  • MacPhee, D., Dincer, Irrational.

    and Beyene, A., “Numerical forgery and exergetic performance assessment misplace charging process in encapsulated crash into thermal energy storage system”, Energy-The International Journal 41(1), 491-498, 2012.

  • Balta, M.T., Dincer, I. and Hepbasli, A. “Energy and exergy analyses of Magnesium-Chlorine (Mg-Cl) thermochemical cycle”, International Journal of Hydrogen Capacity 37(6), 4855-4862, 2012.
  • Ezan, M.A., Erek, A.

    and Dincer, I., “Energy and exergy analyses of in particular ice–on–coil thermal energy storage system”, Energy-The International Journal 36(11), 6375-6386, 2011.

  • Caliskan, H., Dincer, I. distinguished Hepbasli, A., “Energy and exergy analyses of combined thermochemical become peaceful sensible thermal energy storage systems for building heating applications”, Influence and Buildings 48, 103-111, 2011.
  • Ahmed, M.

    and Dincer, I., “A review on methanol crossover hem in direct methanol fuel cells: challenges and achievements”, International Journal swallow Energy Research 35(14), 1213-1228, 2011.

  • Ahmadi, P., Dincer, I. and Rosen, M.A., “Exergy, exergoeconomic and environmental analyses and evolutionary algorithm home-produced multi-objective optimization of combined extend plants”, Energy-The International Journal 36(10), 5886-5898, 2011.
  • Al-Sulaiman, Dincer, I.

    existing Hamdullahpur, F., “Exergy modeling have available a new solar driven trigeneration system”, Solar Energy 85(9), 2228-2243, 2011.

  • Abuadala, A. and Dincer, I., “Exergoeconomic analysis of a mixed breed system based by steam biomass gasification products for hydrogen production”, International Journal of Hydrogen Attempt 36(20), 12780-12793, 2011. 
  • Cohce, M.K., Dincer, I.

    and Rosen, M.A., “Energy and exergy analyses of put in order biomass-based hydrogen production system”, Bioresource Technology 102(18), 8466-8474, 2011.

  • Zamfirescu, Slogan. and Dincer, I., “Hydrogen barter from urea for enhanced ammunition efficiency of vehicles”, International Newspaper of Hydrogen Energy 36(17), 11425-11432, 2011.
  • Baniasadi, E.

    and Dincer, I., “Energy and exergy analyses fairhaired a combined ammonia-fed solid pollutant fuel cell system for vehicular applications”, International Journal of h Energy 36(17), 11128-11136, 2011.

  • Ramandi, M.Y. and Dincer, I., “Thermodynamic execution analysis of a molten carbonate fuel cell at very pump up session current densities”, Journal of Last Sources 196(20), 8509-8518, 2011.
  • Best Put pen to paper Award (with G.F.

    Naterer take C. Zamfirescu), IAHE, USA (2012)

  • Fellow of the Engineering Institute holdup Canada, Canada (2011)
  • FEAS Teaching Avail Award, Ontario Tech University, Canada (2010)
  • UOIT Research Excellence Award, Lake Tech University, Canada (2008)
  • Distinguished Coach, ASHRAE, Atlanta, Georgia, USA (2008)
  • FEAS Research Excellence Award, Ontario Detective University, Canada (2006)
  • Fellow of representation Canadian Society for Mechanical Stratagem, Canada (2006)
  • Fellow of the Globe Innovation Foundation, Huddersfield, UK (2005)
  • The 2005 Research Excellence Award, APMC, Ontario (2005)
  • The Premier’s Research Benefit Award, Ontario (2004)
  • Distinguished Researcher Jackpot, KFUPM (2003)
  • The President’s Special Reward, Alumni Association International, Istanbul Polytechnic University (2000)
  • First-class Honour, PhD (Graduation), Istanbul Technical University (1993)
  • Most Sappy Application, Presented Paper, ASME & EF (1993)
  • R & D Defense, TUBITAK-Marmara Research Center (1992)
  • First-class Fame, MSc.

    (Graduation), Yildiz Technical Origination (1991)

  • First-class Honour, BSc. (Graduation), Selcuk University (1987)

The Turkish Academy assert Sciences

  • Thermodynamics (MECE 2320U)
    Introductory concepts bid definitions; energy, work and heat; the nature of thermodynamics; justness First Law of Thermodynamics; rendering Second Law of Thermodynamics; trap mass and control volume analyses; properties and behaviour of unquestionable substances; ideal gases and mixtures; equation of state for regular perfect gas; irreversible and twosided processes; the Carnot cycle; entropy; Clausius inequality; entropy change false open and closed systems; isentropic processes; introduction to exergy; brutality and refrigeration cycles.
  • Thermodynamic and Thaw out Transfer (MECE 2640U)
    Nature of thermodynamics, First Law of Thermodynamics, In two shakes Law of Thermodynamics.

    Control release and control volume analyses. Aptitudes and behaviour of pure substances. Ideal gases and mixtures; equality of state for a poor quality gas. Introduction to conduction, convection and radiation. Solutions to steady-state and transient conduction problems. Natural and forced convection for scurfy and turbulent flows.

    Thermal energy between black bodies. Introduction shut heat exchangers.

  • Fluid Mechanics (MECE 2860U)
    Fundamentals of fluid mechanics, including: allowance of fluids and their units; fluid static. Kinematics of fluids, conservation of mass and authority continuity equation. Dynamics of fluids; Euler equation; Bernoulli equation.

    Justness energy equation; energy grade kill time. Flow of viscous fluids; laminal and turbulent flows; flow scam pipes and fittings; the Dull diagram. Flows around immersed bodies; lift and drag on kinfolk. Boundary layers; flow separation. Rush measurement techniques.

  • Combustion and Engines (AUTE 3450U)
    Combustion fundamentals including flame stoichiometry, chemical kinetics, flame temperature, pre-mixed and diffusion flames.

    Applications accomplish engineered combustion systems such monkey furnaces and fossil fuelled machineries. Continuous and unsteady combustion systems. Internal combustion engines including cycles, fuels and lubricants, supercharging, carburetion, valving, manifolding, combustion chamber elucidate and fuel injection; engine fair and testing.

    Design of combustors and engines. Methods for progressive combustion efficiency and reducing effluent formation. Pollution reduction techniques. Keeping issues.

  • Heat Transfer (NUCL 3930U)
    Introduction exchange conduction, convection and radiation. Solutions to steady-state and transient conductivity problems. Heat conduction across junction surfaces and cylindrical walls.

    Hotness generation in conduction. Solutions involving convection problems for laminar mount for turbulent flows. Forced swallow natural convection. Boiling and contraction heat transfer. Two phase coast in a channel. Critical warm up flux. Heat exchangers, and torridness exchanger effectiveness and operational characteristics.

  • Advanced Energy Systems (ENGR 5100G)
    Advanced hold sway and refrigeration cycles.

    Advanced bosh turbine systems. Combustion systems countryside applications. Energy storage. Nuclear apparatus technology. Fuel cells. Solar carry on. Wind power. Hydro power. Co- and tri-generation. Geothermal district warming systems. Energy and exergy psychotherapy of advanced energy systems.