Tahereh Safari
I am Mrs. Tahereh Safari. I have a solid state physics master's degree and I have been researching fuel cells since 2002. I have written many articles on fuel cells and presented at conferences in my country. And then in 2005, I wrote an article entitled "Proton Membrane Electrolyte" for the International Conference in Nevada, USA, Las Vegas. Which was accepted as a lecture on the first day and was chosen as the distinguished conference paper. I gave my undergraduate thesis on Renewable Energies and Types of Fuel Cells, which I submitted to the University in 2005, and my master's thesis on the study of thermodynamic parameters in biofuel cells that I submitted to the University in 2014. I have completed a course at the virtual Medical Biotechnology Research Institute in Tehran. I have successfully completed all assignments and final exam requirements for the following cause. The name of this period was biosafety officer. The length of the course was 120 hours. and was held august 2016 to November weekly. I now have three patents on fuel cells and a book on clean energy and fuel cells that are being submitted. I'm interested in researching fuel cells, especially its bio-type, and I have some great ideas about it.
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Papers by Tahereh Safari
membrane has a selective permeability that acts like a dam (barrier). The most important feature of a membrane
is its chemical nature. The chemical nature of each membrane contains the presence of molecular groups, its
microcrystalline structure, cavity statistics (cavity size, distribute cavity size, density, volume size) and its structural
symmetry. The most important properties of each membrane in terms of performance in a separation system are
permeability and selectivity. In this paper, we first describe the membrane and its properties, applications, separation
mechanism and as well as the membrane in polymer fuel cells. Then, we explain the porous membranes, the membrane
of polymer nanocomposite, the fuel cell of membrane-electrode, layer electrode retaining elements in membrane fuel
cells-electrodes, flow collectors, transferring reactants to the membrane electrode fuel cell, the characteristics of
the oxidation current/transfer collector plates, characteristics of the collecting plates, the flow/ transfer of the fuel
(hydrogen) and the construction of a membrane-electrode fuel cell.
membrane has a selective permeability that acts like a dam (barrier). The most important feature of a membrane
is its chemical nature. The chemical nature of each membrane contains the presence of molecular groups, its
microcrystalline structure, cavity statistics (cavity size, distribute cavity size, density, volume size) and its structural
symmetry. The most important properties of each membrane in terms of performance in a separation system are
permeability and selectivity. In this paper, we first describe the membrane and its properties, applications, separation
mechanism and as well as the membrane in polymer fuel cells. Then, we explain the porous membranes, the membrane
of polymer nanocomposite, the fuel cell of membrane-electrode, layer electrode retaining elements in membrane fuel
cells-electrodes, flow collectors, transferring reactants to the membrane electrode fuel cell, the characteristics of
the oxidation current/transfer collector plates, characteristics of the collecting plates, the flow/ transfer of the fuel
(hydrogen) and the construction of a membrane-electrode fuel cell.