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Engineering / Mechanical Engineering / Heat Exchanger / Geothermal Energy / Desalination / Air flow / Computer Simulation / Working Conditions / Water Temperature / CHEMICAL SCIENCES / Sea Water / Fresh water / Interdisciplinary Engineering / Applied Thermal Engineering / Flow Rate / Air flow / Computer Simulation / Working Conditions / Water Temperature / CHEMICAL SCIENCES / Sea Water / Fresh water / Interdisciplinary Engineering / Applied Thermal Engineering / Flow Rate
Engineering / Heat Transfer / Heat Exchanger / Optimal Control theory / Hydrogen Energy / Heat transfer coefficient / Second Law / CHEMICAL SCIENCES / Chemical reactors / Energy efficient / Boundary Condition / Driving force / Heat transfer coefficient / Second Law / CHEMICAL SCIENCES / Chemical reactors / Energy efficient / Boundary Condition / Driving force
Engineering / Heat Transfer / Heat Exchanger / Optimal Control theory / Hydrogen Energy / Heat transfer coefficient / Second Law / CHEMICAL SCIENCES / Chemical reactors / Energy efficient / Boundary Condition / Heat transfer coefficient / Second Law / CHEMICAL SCIENCES / Chemical reactors / Energy efficient / Boundary Condition
Carbon Dioxide / Heat Exchanger / High Temperature / Experimental Study / Hydrogen Sulfide / Numerical Model / University of Illinois at Chicago / Process Evaluation / Porous Medium / Experimental Data / Department of Energy / CO 2 Emission / Numerical Model / University of Illinois at Chicago / Process Evaluation / Porous Medium / Experimental Data / Department of Energy / CO 2 Emission