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The major causes of global warming are mainly attributed to greenhouse gases such as carbon dioxide and methane. The conversion of the gases to renewable fuels has stirred interest for greenhouse gas mitigation and energy crises alleviations. The main objective was to develop the nanosized titania catalyst for selective carbon dioxide and methane reduction to fuels by using photoreactor. The photoreduction reported over titania nanoparticles and titania nanotube arrays. Response surface methodology was used to assess individual and interactive effects of important parameters on conversion.…mehr

Produktbeschreibung
The major causes of global warming are mainly attributed to greenhouse gases such as carbon dioxide and methane. The conversion of the gases to renewable fuels has stirred interest for greenhouse gas mitigation and energy crises alleviations. The main objective was to develop the nanosized titania catalyst for selective carbon dioxide and methane reduction to fuels by using photoreactor. The photoreduction reported over titania nanoparticles and titania nanotube arrays. Response surface methodology was used to assess individual and interactive effects of important parameters on conversion. Finally, kinetic model using Langmuir-Hinshelwood developed to investigate photocatalytic reduction process, was found to fit well with the experimental data.
Autorenporträt
Being a member of University as a lecturer for over 16 years and thesis supervisor of chemical engineering students who have chosen different subjects. Teaching courses such as material and energy balance, fluid mechanics,heat & mass transfer, thermodynamics, chemical reaction engineering. Ph.D of Chemical Engineering, Universiti Teknologi Malaysia.