Noor Abdullatif Ezat
Research Interestscomposite material
improve mechanical properties of different materials
| Gender | FEMALE |
|---|---|
| Place of Work | Dour Technical Institute |
| Qualification | Master Degree |
| Speciality | Mechanical engineering |
| noor.ae@ntu.edu.iq | |
| Phone | 07730856040 |
| Address | حي المنصور, قضاء الدور, صلاح الدين, Iraq |
Noor Abdul Latif Ezzat , I am an Assistant Lecturer specializing in Mechanical Engineering possessing a strong academic background and teaching experience in higher education since 2021. I currently a staff member at the Northern Technical University, specifically at Al-Dour Technical Institute.
I have highly qualified in my field, having earned my Bachelor's degree in Mechanical Engineering from the University of Tikrit in 2013. I further solidified my career path by obtaining a Master's degree in Mechanical Engineering from the same university in 2020, which provided me with advanced knowledge in Mechanical Engineering.
My expertise centers on teaching Mechanical Engineering courses, with a focus on the applied aspects that serve technical diploma students. Utilizing my academic email (noor.ae@ntu.edu.iq), I actively seeks to contribute to research activities related to Mechanical Engineering and enhance the efficiency of the educational process at the Institute.
Skills
Arabic language (100%)
English language (85%)
power point (95%)
Excel (80%)
improve mechanical properties of different materials (85%)
Designing machine Educational (90%)
Academic Qualification
Bsc
Nov 1, 2009 - Jul 1, 2013Tikrit University - College of Engineering - Mechanical Engineering
Msc
Sep 1, 2017 - Feb 20, 2020Tikrit University - College of Engineering - Mechanical Engineering
Publications
Enhancing pv panel performance with different types of phase change material(pcm): an experimental study
Sep 15, 2024Journal Journal of advanced research in fluid mechanics and thermal sciences
publisher Sarah Burhan Ezzat, Noor Abdullatif Ezat, Qusay Kamil Jasim
DOI https://doi.org/10.37934/arfmts.121.1.5669
Issue 1
Volume 121
This study examined two solar panels with a high producing capacity of 250 W for performance enhancement utilizing several types of paraffin wax (RT57, RT61, and RT68) connected to the panel's rear surface. Two solar panels (one reference and one combined with PCM; PV-PCM) are used for outdoor tests. The current implementation is made with three types of PCM with a fixed thickness (3 cm) and with different inclination angles of 10°, 20°, 30°, and 40°. According to the results, the PV panels' tops had the maximum temperature spread, while their bottoms showed the lowest variation in temperature. At an inclination angle of 10◦, the temperature on the upper side of the plate is 18.8% higher than the lower side, 14.3%, and 12.2% for PCM1, PCM2, and PCM3, respectively. There is also an improved electrical power output of 16.8% for the PV-PCM panel with 3 cm PCM thickness over the reference panel (PV) with a tilt angle of 40◦. Relatedly, raising the inclination angle from 10◦ to 40◦ improves the Energy efficiency of PV-PCM with a thickness of 3 cm PCM by 10.4%. Finally, using 3 cm thick PCM improves the Energy efficiency of the PV-PCM panel by 17.4% compared to PV with an inclination angle of 30◦.