Mohamed E. Mostafa
10 Papers
Mohamed E. Mostafa is an academic researcher. The author has contributed to research in topics: Combustion & Biomass (ecology). The author has an hindex of 1, co-authored 7 publications.
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Papers
Thermal degradation behaviour and chemical kinetic characteristics of biomass pyrolysis using TG/DTG/DTA techniques
TL;DR: In this article , the thermal degradation of palm fronds (PF), olive leaves (OL), and wheat straw (WS) through pyrolysis and calculate their kinetic data using TG-DTG and DTA approaches.
Pyrolysis and co-pyrolysis of Egyptian olive pomace, sawdust, and their blends: Thermal decomposition, kinetics, synergistic effect, and thermodynamic analysis
TL;DR: In this paper , the pyrolysis and co-pyrolyisation kinetics of two Egyptian olive-pomace (Kroneiki and Shamlali), wood dust, and their blends were investigated by advanced isoconversional model-free methods (Vyazovkin and Senum-Yang) and model-fitting methods (Coats and Redfern integral method) using different integrated reaction mechanisms g(α) through TGA/DTG, and DTA techniques.
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Pyrolysis characteristics and kinetic parameters assessment of typical agricultural residues using high heating photothermal TGA
Abdulmajid Abdullahi Shagali,Mohamed E. Mostafa,Hanjian Li,Song Hu,Jun Xu,Long Jiang,Yi Wang,Sheng Su,Jun Xiang +8 more
TL;DR: This study assesses pyrolysis characteristics and kinetic parameters of corn cobs, peanut shells, and sugarcane bagasse using high heating rate TGA, revealing compositional differences and varying thermal degradation stability, activation energies, and kinetic models.
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Numerical investigation of the effect of swirling flow caused by twisted tape in impinging jet's nozzle on heat transfer: Application in cooling of electronic components and turbine blades
Mohammed N. Ajour,Saeed Jahangiri,Ahmed Salah Al-Shati,Nidal H. Abu-Hamdeh,Mohamed E. Mostafa,Dheyaa J. Jasim,Maboud Hekmatifar +6 more
TL;DR: Numerical investigation of impinging jets with swirling flow created by twisted tape in nozzles reveals increased heat transfer in certain directions, with effects varying by Reynolds number and nozzle distance from the impingement surface.
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