Modeling cathode carbon corrosion in pem fuel cells and study of failure mitigation techniques using nanotechnology /
Mahmoud Faheem Sharshar
Modeling cathode carbon corrosion in pem fuel cells and study of failure mitigation techniques using nanotechnology / نمذجة تآكل الكربون فى القطب السالب(الكاثود) لخلايا الوقود ذات الغشاء الموصل للبروتونات ودراسة وسائل تقليل الإنهيار باستخدام تكنولوحيا النانو Mahmoud Faheem Sharshar ; Supervised Karam Ramzi Beshay , Magdey Makram Nasrallah - Cairo : Mahmoud Faheem Sharshar , 2015 - 188 P. : charts , facsimiles ; 30cm
Thesis (Ph.D.) - Cairo University - Faculty of Engineering - Department of Mechanical Power Engineering
The study investigates numerically, cathode carbon corrosion in PEM fuel cells. This phenomenon is caused by exhausting of hydrogen in a part of the anode compartment and replaced by air (Oxygen), where the rest of the anode operates normally. This irregular situation sets up the entire cell in the mode of dual operation as generator (power source) drive an electrolyzer (power load) which creates reverse current increases cathode interfacial potential and promotes carbon corrosion. This failure mode of operation is referenced to normal mode of operation. Hence, it is convenient to first investigate normal mode of operation of PEM fuel cells which is completely exhibited in performance, participating physics and characteristic parameters. The performance is expressed in output voltages, the characteristic parameters are expressed in geometrical, kinetic, transport and operating parameters and participating physics are expressed in physical variables. Computational models have been developed in COMSOL multi-physics to study both normal mode and failure mode of operation. Failure mitigation is investigated employing alternative carbon materials using nanotechnology.
Cathode carbon corrosion Computational model PEM FUEL CELLS
Modeling cathode carbon corrosion in pem fuel cells and study of failure mitigation techniques using nanotechnology / نمذجة تآكل الكربون فى القطب السالب(الكاثود) لخلايا الوقود ذات الغشاء الموصل للبروتونات ودراسة وسائل تقليل الإنهيار باستخدام تكنولوحيا النانو Mahmoud Faheem Sharshar ; Supervised Karam Ramzi Beshay , Magdey Makram Nasrallah - Cairo : Mahmoud Faheem Sharshar , 2015 - 188 P. : charts , facsimiles ; 30cm
Thesis (Ph.D.) - Cairo University - Faculty of Engineering - Department of Mechanical Power Engineering
The study investigates numerically, cathode carbon corrosion in PEM fuel cells. This phenomenon is caused by exhausting of hydrogen in a part of the anode compartment and replaced by air (Oxygen), where the rest of the anode operates normally. This irregular situation sets up the entire cell in the mode of dual operation as generator (power source) drive an electrolyzer (power load) which creates reverse current increases cathode interfacial potential and promotes carbon corrosion. This failure mode of operation is referenced to normal mode of operation. Hence, it is convenient to first investigate normal mode of operation of PEM fuel cells which is completely exhibited in performance, participating physics and characteristic parameters. The performance is expressed in output voltages, the characteristic parameters are expressed in geometrical, kinetic, transport and operating parameters and participating physics are expressed in physical variables. Computational models have been developed in COMSOL multi-physics to study both normal mode and failure mode of operation. Failure mitigation is investigated employing alternative carbon materials using nanotechnology.
Cathode carbon corrosion Computational model PEM FUEL CELLS