Ahmed El-Tayeb Mohamed Maowed Khalil

Scopus Publications

Electrical Impedance Spectroscopy: A Complementary Approach Differentiating PID Mechanisms in Photovoltaics
A. El-Tayeb, Fang Li, Akash Kumar, Govindasamy Tamizhmani
Electronics Switzerland, 2025
Potential-induced degradation (PID) presents a critical reliability issue for solar photovoltaic (PV) modules, with three primary types identified in the literature, namely, PIDs (shunting type), PIDp (polarization type), and PIDc (corrosion type). Electrochemical/electrical impedance spectroscopy (EIS) is a highly effective but underutilized technique for differentiating between these PID mechanisms. When used alongside conventional I–V measurements (e.g., Isc, Voc, and FF), EIS offers direct insights into parameters such as Rs, Rp, and Cp, making it a valuable tool for PID type differentiation. In this study, two four-cell glass–glass modules were investigated using p-base PERC monofacial cells with EVA and POE encapsulants. Results indicate that Voc and FF remained nearly unchanged under +1000 V stress for both EVA and POE modules, suggesting a minimal impact of PID stress on these parameters. However, Isc was reduced by approximately 8.5% in the EVA module and 10% in the POE module. For the POE module, surface recombination (PIDp) is likely responsible for the Isc loss, as Rs, Rp, and Cp showed no significant variation. Conversely, in the EVA module, the combined effects of surface recombination and junction recombination (PIDjr) are the probable cause of the Isc loss, as evidenced by remarkable changes in Rp and Cp. The observed decrease in Rp for the EVA module is attributed to reduced dynamic diode resistance rather than ohmic shunt resistance. This reduction is linked to recombination currents induced by junction trap centers, formed by the positive voltage PID stress in the encapsulant, which contains trace amounts of oxidizable species such as CH3COOH and/or H2O. The objective of this study is to evaluate the impact of PID stress on the electrical characteristics of glass–glass PV modules with different encapsulants, utilizing a combined EIS and I–V approach to distinguish between PID mechanisms. The findings highlight the critical role of the encapsulant type in determining PID susceptibility, with the EVA module exhibiting significant degradation linked to junction recombination losses. These insights underscore the necessity of optimizing encapsulant materials to enhance PV module durability and reliability in real-world applications.
Reinventing Effective Grounding Systems via Optimal Soil Composition, Thickness, and Replacement Parameters Under Fault Conditions
Ahmed El-Tayeb Khalil, Adel Zein El Dein, Mahmoud Ramadan Hefny, Matti Lehtonen, Mohamed M. F. Darwish
IEEE Access, 2025
This paper investigates the impact of soil replacement around a ground grid on its performance, with a focus on replacing the base soil with a lower-resistivity material and analyzing the influence of the replaced layer’s area and thickness. The study explores the effects of soil replacement on critical parameters such as total ground resistance, earth surface potential (ESP), current density, and electric field distribution under line-to-ground fault conditions. Key soil properties, including water content, thermal and electrical conductivity, heat capacity, density, and relative permittivity coefficient, are also considered to assess their role in optimizing the grounding environment. Despite extensive research on grounding system performance, most existing studies have assumed homogenous soil models or ideal conditions, overlooking the complex variations in real soil properties and environmental factors that critically affect fault performance. Traditional design methodologies often fail to address the effects of non-uniform soil composition, moisture variations, and localized resistivity changes, leading to suboptimal safety and performance in practical installations. This gap necessitated the proposed research, which systematically investigates soil replacement strategies as a practical and scalable solution to enhance grounding system efficiency under realistic conditions. This paper addresses a detailed investigation of how targeted soil replacement strategies influence grounding system behavior under realistic fault conditions. It introduces a practical framework that integrates both environmental and electrical soil properties to enhance performance evaluation and design accuracy. The results demonstrate that replacing high-resistivity sand with low-resistivity clay significantly reduces total ground resistance. For a 1-meter-thick replaced layer, resistance decreased from 8.4 Ω to 3.17 Ω (a 62.3% reduction) when sand was replaced with clay, whereas replacing clay with sand increased resistance to 11.5 Ω (a 37% increase) at 1.5 meters of thickness. Similarly, ESP values dropped substantially when clay was introduced as a replacement layer, enhancing current dissipation and reducing surface potential risks. Moreover, expanding the replaced soil width from 25 meters to 50 meters resulted in further ground resistance reduction, with values decreasing from 3.3 Ω to 3.17 Ω when replacing sand with clay, while resistance increased from 2.5 Ω to 8.4 Ω when replacing clay with sand. The study also revealed that a 50% replacement of sand with clay improved current density uniformity and enhanced grounding efficiency compared to full replacement scenarios. The findings show that replacing the cover soil layer achieves greater improvements in reducing ground resistance and enhancing current dissipation compared to the base layer. Increasing the thickness and area of the replaced soil further improves current density uniformity, reduces surface potential, and significantly boosts the safety and efficiency of grounding systems, especially in high-resistivity soils.
Finite Element-Based Modeling of Thermal Behavior Study of Lithium-Ion Batteries
Ibrahim Moukhtar, Jackleen S. Same, Esam H. Abdelhameed, Adel Z. El-Dein, A. El-Tayeb
Proceedings of the International Middle East Power System Conference Mepcon, 2025
This study develops and validates a finite element method (FEM)-based thermal-electrochemical model to analyze the thermal behavior of lithium-ion batteries (LIBs). A two-dimensional axisymmetric model of a Samsung 40T 21700 cell was implemented in COMSOL Multiphysics and validated against manufacturer data. The validated model was then used to examine the influence of anode thickness and anode material composition on the temperature distribution and safety performance of the cell. Results show that increasing anode thickness from 0.01 mm to 0.2 mm raises the temperature from $42.96^{\circ} \mathrm{C}$ to $48.16^{\circ} \mathrm{C}$ ($\approx 12.10 \%$ increase). In terms of anode material change, results show that lithium graphite (LixC6) exhibited the highest temperature rise ($45.43^{\circ} \mathrm{C}$), followed by silicon and hard carbon, while lithium titanium oxide (LTO) ($39.96^{\circ} \mathrm{C}$) and lithium metal showed comparatively lower thermal responses. Temperature contour analysis revealed centralized hotspots, emphasizing the need for effective cooling. Overall, the FEM model provides quantitative insights into how anode geometry and material properties govern heat generation, enabling optimized cell design for enhanced safety and energy efficiency.
Reaction kinetics studies for phenol degradation under the impact of different gas bubbles and pH using gas-liquid discharge plasma
A. El-Tayeb, Takamasa Okumura, Pankaj Attri, Kunihiro Kamataki, Kazunori Koga, Masaharu Shiratani
Japanese Journal of Applied Physics, 2023
A gas–liquid discharge plasma (GLDP) reactor is used to degrade organic pollutants such as phenol. GLDP contains a 7-pin plate system used to enhance phenol degradation in the presence of various pH, and gas bubbles produced from air, O2, O3, CO2, and Ar gases. Experimental outcomes show the impact of solution pH, as phenol degradation efficiencies of 85%, 90%, 96%, and 98% were obtained for pH of 12, 9, 3, and 1, respectively, after 60 min of treatment. This shows that the optimum pH for phenol degradation lies between 1 and 3. Moreover, we explored the influence of gas bubbles generated using various gases, such as air, O2, O3, CO2, and Ar, on phenol degradation. In the presence of O3 gas bubbles, the rate and degree of phenol degradation were significantly increased compared to gas bubbles produced from other gases (O2, CO2, Ar, and air). The degradation competence of phenol by added oxygen remained higher than argon. The performance of the GLDP system at various pH values and gas bubbles was evaluated using kinetic models. Pseudo-zero, first and second reaction kinetics models were used to examine the degradation of phenol. The rate of degradation at different pH and in the presence of gas bubbles follows pseudo-zero-order kinetics. Our GLDP reactor consumed energy of 127.5 J l−1 for phenol degradation under the influence of air bubbles and pH 5. The outcome of this research can help in the design of new reactors for industrial wastewater treatment.
A review on recent key technologies of lithium-ion battery thermal management: External cooling systems
Marwa Mahmoud Hamed, A. El-Tayeb, Ibrahim Moukhtar, A.Z. El Dein, Esam H. Abdelhameed
Results in Engineering, 2022
Recently, due to having features like high energy density, high efficiency, superior capacity, and long-life cycle in comparison with the other kinds of dry batteries, lithium-ion batteries have been widely used for energy storage in many applications e.g., hybrid power micro grids, electric vehicles, and medical devices. However, performance degradation and safety issues exist because of abnormal temperature increment of the cell. So that to guarantee safety and enhance its performance; lithium-ion batteries must be preserved during the operation in a specific range of temperature. So, an adequate battery thermal management system (BTMS) is needed to reduce the maximum temperature of the battery. In the literature, BTMS can be classed as either internal or external thermal management systems based upon which battery's temperature must be treated, the internal or the external one. This article introduces an updated comprehensive review of research interested in the external thermal management strategies to provide a deep understanding of the recent key technologies used for external BTMS. In addition, practical guidelines have been recommended for enhancing the applicability of such technology.
Effect of Thermal Parameters on Behaviour of A Lithium-Ion Battery: Simulation Study
Jackleen S. Same, A. El-Tayeb, Ibrahim Moukhtar, Esam H. Abdelhameed, Adel Z. El-Dein
International Journal of Electrochemical Science, 2022
Influence of temperature in degradation of organic pollution using corona discharge plasma
A. El-Tayeb, Adel Z. El-Dein, Ashraf Y. Elnaggar, Enas E. Hussein
Sustainability Switzerland, 2021
Dye solution temperature influences the elimination efficiency of water-soluble and anionic acid dye. Acid Blue 25 dye, using a gas–liquid electrical discharge system, was successfully investigated. The results showed an increase in the percentage of dye decolorization from 91.16% to 96.12% when the dye solution temperature was increased from 278 K to 308 K. However, the initial dye decolorization percentage was decreased with the further increase in dye solution temperature from 318 K to 358 K. The 2D simulation model was introduced to consider the influence of temperature and the electric field generated by corona discharge plasma in air and water. Results also showed a great match between the experimental and the simulation results. The reaction rates of dye degradation were analyzed using the Arrhenius equation. Furthermore, pseudo-zero-, pseudo-first-, and pseudo-second-order models were used to determine the reaction kinetics. The best fit for the experimental data would follow the pseudo-first-order model. Finally, electrical energy per order, energy yield, and experimental degradation data were calculated to investigate the cost analysis.
Non-thermal plasma as a new advanced technique for intensifying the industrial wastewater treatment
A. El-Tayeb, A.H. El-shazly, M.F. Elkady, A. Abdel-Rahman
Desalination and Water Treatment, 2017
Investigation the influence of different salts on the degradation of organic dyes using non-thermal plasma
Ahmed El-Tayeb, Ahmed El-Shazly, Marwa Elkady
Energies, 2016
In dye decolorization tests a non-thermal plasma (NTP) corona discharge generated by a high voltage pin-to-ground plate displayed 82% color removal within 11 min. Total color removal was accomplished after 28 min. Different salts such as KCl, NaCl, CaCl2 and AlCl3 were utilized to check the influence of conductivity changes on the dye decolorization process. Higher dye solution conductivity improved the color removal efficiency. The discharge energy and degradation efficiency were computed for diverse concentrations for NaCl, KCl, CaCl2 and AlCl3, whereby it was noticed that the salts generally have a small impact on the level of dye decolorization using corona discharge. In addition, the essential reactive species involved in the oxidation of organic dye compounds such as ozone (O3) generated in treated water and hydrogen peroxide (H2O2) were investigated and the energetic species that produced the non-thermal plasma at the optimum operation time were determined. Energy yields for decolorization and Electrical Energy per Order (EE/O) were calculated for different concentrations of NaCl, KCl, CaCl2 and AlCl3. This work may help in designing plasma systems appropriate for treatment of industrial wastewaters polluted by dyes.
Simulation and Experimental Study for Degradation of Organic Dyes Using Dual pin-to-plate Corona Discharge Plasma reactors for Industrial Wastewater Treatment
A. EL‐Tayeb, A.H. EL‐Shazly, M.F. Elkady, A. Abdel‐Rahman
Contributions to Plasma Physics, 2016
This work researches the possibility of increasing the dye removal efficiency from wastewater using nonthermal plasma. A study for the optimal air gap distance between dual pin and surface of Acid Blue 25 dye solution and thickness of ground plate is carried out using 3D‐EM simulator to find maximum electric field intensity at the tip of both pins. The consequences display that the best gap for corona discharge is approximately 5 mm using 15 kV source. In addition, the optimum plate thickness is 0.1 mm. These distance and thickness were mentioned are constant during the study of other factors. Dual pin‐to‐plate high‐voltage corona discharge plasma system is presented to investigation experimentally the gap distance, thickness of ground plate, initial dye concentration, pH solution and conductivity on the amount of Acid Blue 25 dye color removal efficiency from wastewater. There is a large consensus among the simulation and experimental work in the air gap and thickness of ground plate. Where the decolorization for air gap 5 mm is 95.74 at time 35 min compared with 91% and 17% for 1 mm and 20 mm gap distance respectively. Also, the discharge energy at each air gap are calculated. Measurement results for the impact of thickness of an Aluminum ground plate on color removal competence showed color removal efficiencies of 86.3%, 90.78% and 98.06%, after treatment time 15 min for thicknesses of 2, 0.5 and 0.1 mm respectively. The decolorization behavior utilizing dual pin‐to‐plate corona discharge plasma system display 82% pigment evacuation proficiency inside 11min. The complete decolorization was accomplished within 28min for distinctive examined introductory color focuses 5 ppm up to 100 ppm. Likewise, the impacts of conductivity by utilizing diverse salts as AlCl3, CaCl2, KCl and NaCl and with distinctive focuses have been explored. The rising of the solution conductivity leads to the reduction of decolorization efficiency. The decolorization efficiency and discharge energy are calculated at different concentration molarity for AlCl3, CaCl2, KCl and NaCl. It was observed that the presence of salts at the same concentration level substantially decreased the rate and the extent of decolorization. The results indicate that the optimum pH for the decolorization of Acid Blue 25 dye is in the range between 3 and 6. Furthermore the conductivity and discharge energy were measurement at each value of pH. Energy yield for decolorization and Electrical Energy per Order (EE/O) under different initial pH value were calculated. A kinetic model is used to define the performance of corona discharge system under different value of pH. The model of pseudo ‐zero, pseudo‐first order, and pseudo‐second order reactions kinetic are utilized to investigate the decolorization of Acid Blue 25 dye. The rate of degradation of Acid Blue 25 dye follows the pseudo‐first order kinetics in the dye concentration. Energy consumption requirements for decolorization was considered. The outcomes will be useful for designing the plasma treatment systems suitable for industrial wastewaters. (© 2016 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)
Investigation of the decolorization efficiency of two pin-to-plate corona discharge plasma system for industrial wastewater treatment
A. El-Tayeb, A. H. El-Shazly, M. F. Elkady, A. B. Abdel-Rahman
Plasma Physics Reports, 2016
Impacts of different salts on the degradation of acid blue 25 dye using non-thermal plasma
A. El-Tayeb, A. H. El-Shazly, M. F. Elkady
Eeeic 2016 International Conference on Environment and Electrical Engineering, 2016
Decolorization of Acid blue 25 dye by non-thermal plasma advanced oxidation process for industrial wastewater treatment
A. El-Tayeb, A. H. El-Shazly, M. F. Elkady, A. Abdel-Rahman
2015 IEEE 15th International Conference on Environment and Electrical Engineering Eeeic 2015 Conference Proceedings, 2015

RECENT SCHOLAR PUBLICATIONS

Finite Element-Based Modeling of Thermal Behavior Study of Lithium-Ion Batteries
I Moukhtar, JS Same, EH Abdelhameed, AZ El-Dein, A El-Tayeb
2025 26th International Middle East Power Systems Conference (MEPCON), 1-6 , 2025
2025
Reinventing effective grounding systems via optimal soil composition, thickness, and replacement parameters under fault conditions
A El-Tayeb, AZ El Dein, MR Hefny, M Lehtonen, MMF Darwish
IEEE Access , 2025
2025
Citations: 5
Electrical Impedance Spectroscopy: A Complementary Approach Differentiating PID Mechanisms in Photovoltaics
A El-Tayeb, F Li, A Kumar, G Tamizhmani
Electronics 14 (5), 1021 , 2025
2025
Citations: 8
Effect of Grid Depth on the Performance of Ground Grid under Influence of Line to Ground Fault
MR Hefny, AZ El Dein, A El-Tayeb
International Journal of Applied Energy Systems 6 (1), 45-52 , 2024
2024
Reaction kinetics studies for phenol degradation under the impact of different gas bubbles and pH using gas–liquid discharge plasma
A El-Tayeb, T Okumura, P Attri, K Kamataki, K Koga, M Shiratani
Japanese Journal of Applied Physics 62 (SN), SN1010 , 2023
2023
Citations: 3
A review on recent key technologies of lithium-ion battery thermal management: External cooling systems
MM Hamed, A El-Tayeb, I Moukhtar, AZ El Dein, EH Abdelhameed
Results in Engineering 16, 100703 , 2022
2022
Citations: 104
Effect of thermal parameters on behaviour of a lithium-ion battery: simulation study
JS Same, A El-Tayeb, I Moukhtar, EH Abdelhameed, AZ El-Dein
International Journal of Electrochemical Science 17 (9), 220951 , 2022
2022
Citations: 16
A review on recent key technologies of lithium-ion battery thermal management: External cooling systems, Results Eng. 16 (2022), 100703
MM Hamed, A El-Tayeb, I Moukhtar, AZ El Dein, EH Abdelhameed
Preprint not peer reviewed , 2022
2022
Citations: 6
Influence of Temperature in Degradation of Organic Pollution Using Corona Discharge Plasma. Sustainability 2021, 13, 12971
A El-Tayeb, AZ El-Dein, AY Elnaggar, EE Hussein
s Note: MDPI stays neu-tral with regard to jurisdictional claims in … , 2021
2021
Non-thermal plasma as a new advanced technique for intensifying the industrial wastewater treatment
A El-Tayeb, AH El-Shazly, MF Elkady, A Abdel-Rahman
Desalination and Water Treatment 61, 230-239 , 2017
2017
Citations: 13
Investigation the influence of different salts on the degradation of organic dyes using non-thermal plasma
A El-Tayeb, AH El-Shazly, MF Elkady
Energies 9 (11), 874 , 2016
2016
Citations: 31
Simulation and experimental study for degradation of organic dyes using dual pin‐to‐plate corona discharge plasma reactors for industrial wastewater treatment
A EL‐Tayeb, AH EL‐Shazly, MF Elkady, A Abdel‐Rahman
Contributions to Plasma Physics 56 (9), 855-869 , 2016
2016
Citations: 23
Impacts of different salts on the degradation of acid blue 25 dye using non-thermal plasma
A El-Tayeb, AH El-Shazly, MF Elkady
2016 IEEE 16th International Conference on Environment and Electrical … , 2016
2016
Citations: 9
Simulation and experimental study for organic dye decolorization using corona discharge plasma system
A El-Tayeb, AH El-Shazly, MF Elkady, A Abdel-Rahman
Plasma Science and Technology , 2016
2016
Citations: 5
Investigation of the decolorization efficiency of two pin-to-plate corona discharge plasma system for industrial wastewater treatment
ABAR A. El-Tayeb, A. H. El-Shazly, M. F. Elkady
Plasma Physics Reports 42 (9), 887–899 , 2016
2016
Citations: 28
Decolorization of Acid Blue 25 dye by non-thermal plasma advanced oxidation process for industrial wastewater treatment
A El-Tayeb, AH El-Shazly, MF Elkady, A Abdel-Rahman
2015 IEEE 15th International Conference on Environment and Electrical … , 2015
2015
Citations: 15
Performance of Ceramic Insulator String for 132kV under Different Polluted Conditions
EL Ahmed, AZEDM Moussa
Journal of Energy 1 (3), 152-160 , 2014
2014
Citations: 15
Prediction of flashover voltage and dry band location for polluted ceramic insulators using dynamic open-model
OES Gouda, AZ El Dein, A El-Tayeb
J. Energy Power Sources 1 (6), 304-313 , 2014
2014
Citations: 11
Performance of Ceramic Insulator Type under Different Polluted Conditions
OE Gouda, AZ El Dein, A Thabet, A El Tayeb
The 2nd International Conference on Energy Engineering ICEE-2, 1-7 , 2010
2010
Citations: 1

MOST CITED SCHOLAR PUBLICATIONS

A review on recent key technologies of lithium-ion battery thermal management: External cooling systems
MM Hamed, A El-Tayeb, I Moukhtar, AZ El Dein, EH Abdelhameed
Results in Engineering 16, 100703 , 2022
2022
Citations: 104
Investigation the influence of different salts on the degradation of organic dyes using non-thermal plasma
A El-Tayeb, AH El-Shazly, MF Elkady
Energies 9 (11), 874 , 2016
2016
Citations: 31
Investigation of the decolorization efficiency of two pin-to-plate corona discharge plasma system for industrial wastewater treatment
ABAR A. El-Tayeb, A. H. El-Shazly, M. F. Elkady
Plasma Physics Reports 42 (9), 887–899 , 2016
2016
Citations: 28
Simulation and experimental study for degradation of organic dyes using dual pin‐to‐plate corona discharge plasma reactors for industrial wastewater treatment
A EL‐Tayeb, AH EL‐Shazly, MF Elkady, A Abdel‐Rahman
Contributions to Plasma Physics 56 (9), 855-869 , 2016
2016
Citations: 23
Effect of thermal parameters on behaviour of a lithium-ion battery: simulation study
JS Same, A El-Tayeb, I Moukhtar, EH Abdelhameed, AZ El-Dein
International Journal of Electrochemical Science 17 (9), 220951 , 2022
2022
Citations: 16
Decolorization of Acid Blue 25 dye by non-thermal plasma advanced oxidation process for industrial wastewater treatment
A El-Tayeb, AH El-Shazly, MF Elkady, A Abdel-Rahman
2015 IEEE 15th International Conference on Environment and Electrical … , 2015
2015
Citations: 15
Performance of Ceramic Insulator String for 132kV under Different Polluted Conditions
EL Ahmed, AZEDM Moussa
Journal of Energy 1 (3), 152-160 , 2014
2014
Citations: 15
Non-thermal plasma as a new advanced technique for intensifying the industrial wastewater treatment
A El-Tayeb, AH El-Shazly, MF Elkady, A Abdel-Rahman
Desalination and Water Treatment 61, 230-239 , 2017
2017
Citations: 13
Prediction of flashover voltage and dry band location for polluted ceramic insulators using dynamic open-model
OES Gouda, AZ El Dein, A El-Tayeb
J. Energy Power Sources 1 (6), 304-313 , 2014
2014
Citations: 11
Impacts of different salts on the degradation of acid blue 25 dye using non-thermal plasma
A El-Tayeb, AH El-Shazly, MF Elkady
2016 IEEE 16th International Conference on Environment and Electrical … , 2016
2016
Citations: 9
Electrical Impedance Spectroscopy: A Complementary Approach Differentiating PID Mechanisms in Photovoltaics
A El-Tayeb, F Li, A Kumar, G Tamizhmani
Electronics 14 (5), 1021 , 2025
2025
Citations: 8
A review on recent key technologies of lithium-ion battery thermal management: External cooling systems, Results Eng. 16 (2022), 100703
MM Hamed, A El-Tayeb, I Moukhtar, AZ El Dein, EH Abdelhameed
Preprint not peer reviewed , 2022
2022
Citations: 6
Reinventing effective grounding systems via optimal soil composition, thickness, and replacement parameters under fault conditions
A El-Tayeb, AZ El Dein, MR Hefny, M Lehtonen, MMF Darwish
IEEE Access , 2025
2025
Citations: 5
Simulation and experimental study for organic dye decolorization using corona discharge plasma system
A El-Tayeb, AH El-Shazly, MF Elkady, A Abdel-Rahman
Plasma Science and Technology , 2016
2016
Citations: 5
Reaction kinetics studies for phenol degradation under the impact of different gas bubbles and pH using gas–liquid discharge plasma
A El-Tayeb, T Okumura, P Attri, K Kamataki, K Koga, M Shiratani
Japanese Journal of Applied Physics 62 (SN), SN1010 , 2023
2023
Citations: 3
Performance of Ceramic Insulator Type under Different Polluted Conditions
OE Gouda, AZ El Dein, A Thabet, A El Tayeb
The 2nd International Conference on Energy Engineering ICEE-2, 1-7 , 2010
2010
Citations: 1
Finite Element-Based Modeling of Thermal Behavior Study of Lithium-Ion Batteries
I Moukhtar, JS Same, EH Abdelhameed, AZ El-Dein, A El-Tayeb
2025 26th International Middle East Power Systems Conference (MEPCON), 1-6 , 2025
2025
Effect of Grid Depth on the Performance of Ground Grid under Influence of Line to Ground Fault
MR Hefny, AZ El Dein, A El-Tayeb
International Journal of Applied Energy Systems 6 (1), 45-52 , 2024
2024
Influence of Temperature in Degradation of Organic Pollution Using Corona Discharge Plasma. Sustainability 2021, 13, 12971
A El-Tayeb, AZ El-Dein, AY Elnaggar, EE Hussein
s Note: MDPI stays neu-tral with regard to jurisdictional claims in … , 2021
2021

Ahmed El-Tayeb Mohamed Maowed Khalil

RESEARCH, TEACHING, or OTHER INTERESTS

Scopus Publications

RECENT SCHOLAR PUBLICATIONS

MOST CITED SCHOLAR PUBLICATIONS