Mahamed Hassan | JIGJIGA University (original) (raw)
Mohamed hassan, born 1993, hold mph epidemiology
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Maharan Pratap Unversity of Agriculture and Technolgy,Udaipur,India
Sardar Swaran Singh National Institute of Renewable Energy
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Papers by Mahamed Hassan
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A simulation was needed to simulate generating energy from Jatropha plants' solid wastes in combi... more A simulation was needed to simulate generating energy from Jatropha plants' solid wastes in combined cycle power plants. In this study, a simulation was built to simulate energy generation from gasified Jatropha solid wastes. Solid wastes from Jatropha plants' were generated from biodiesel production to produce 1.53 kg/s biodiesel. An assumption was made these solid wastes were gasified to generate energy. Energy production was simulated using DWSIM software. Solid wastes were classified into three categories; cake, shell, and husk. The amount of cake was calculated to be 1.62 kg/s, the shell calculated to be 3.6 kg/s, and the husk was calculated to be 2.16 kg/s. Therefore, the producer gas for each Jatropha solid waste was estimated according to the literature to be 3.65 m 3 /s for the cake, 4.86 m 3 /s for husk, and 8.1 m 3 /s for the shell. The simulation of generating energy from the syngas was validated using experimental data from the literature. Sensitivity analysis was conducted to find the optimum conditions. The results showed that the energy produced from Jatropha waste was higher than that produced from biodiesel. From the simulation, the net energy generated in the gas turbine section was 21.34 MW and from HRSG 12.472 MW. The water flow rate in the compression section of syngas was found to be 10.18 kg/s, which was converted to steam and added more power to the power plant.
III ACKNOWLEGEMENT Above all, I would like to express my heart full gratitude to Jigjiga Universi... more III ACKNOWLEGEMENT Above all, I would like to express my heart full gratitude to Jigjiga University particularly college of health science for providing me for the opportunity to continue my master's degree. Next to that I would like to extend my gratitude to department of Public Health in Epidemiology for providing to me the chance to develop my educational competency, my advisor Mr. Wubareg Seifu and my Mr. Omer Ma'alin for their unreserved efforts in providing their professional support technique, those helped me in preparing the research proposal.
Heliyon
A simulation was needed to simulate generating energy from Jatropha plants' solid wastes in combi... more A simulation was needed to simulate generating energy from Jatropha plants' solid wastes in combined cycle power plants. In this study, a simulation was built to simulate energy generation from gasified Jatropha solid wastes. Solid wastes from Jatropha plants' were generated from biodiesel production to produce 1.53 kg/s biodiesel. An assumption was made these solid wastes were gasified to generate energy. Energy production was simulated using DWSIM software. Solid wastes were classified into three categories; cake, shell, and husk. The amount of cake was calculated to be 1.62 kg/s, the shell calculated to be 3.6 kg/s, and the husk was calculated to be 2.16 kg/s. Therefore, the producer gas for each Jatropha solid waste was estimated according to the literature to be 3.65 m 3 /s for the cake, 4.86 m 3 /s for husk, and 8.1 m 3 /s for the shell. The simulation of generating energy from the syngas was validated using experimental data from the literature. Sensitivity analysis was conducted to find the optimum conditions. The results showed that the energy produced from Jatropha waste was higher than that produced from biodiesel. From the simulation, the net energy generated in the gas turbine section was 21.34 MW and from HRSG 12.472 MW. The water flow rate in the compression section of syngas was found to be 10.18 kg/s, which was converted to steam and added more power to the power plant.
III ACKNOWLEGEMENT Above all, I would like to express my heart full gratitude to Jigjiga Universi... more III ACKNOWLEGEMENT Above all, I would like to express my heart full gratitude to Jigjiga University particularly college of health science for providing me for the opportunity to continue my master's degree. Next to that I would like to extend my gratitude to department of Public Health in Epidemiology for providing to me the chance to develop my educational competency, my advisor Mr. Wubareg Seifu and my Mr. Omer Ma'alin for their unreserved efforts in providing their professional support technique, those helped me in preparing the research proposal.