Mustafa Hussein Bahaulddin Bahaulddin
Research InterestsMechanics
Physics
materials
Energy
Astrophysics
Nano technology
Mechanical engineering
Applied Mechanics
astro engineering
| Gender | MALE |
|---|---|
| Place of Work | College of Oil & Gas Techniques Engineering / Kirkuk |
| Department | Renewable Energy Techniques Department |
| Position | Planning Unit Officer and Assistant lecturer |
| Qualification | Master |
| Speciality | Applied mechanics |
| mustafa.hussein@ntu.edu.iq | |
| Phone | +9647706111847 |
| Address | kirkuk/ Madinaty Complex/ University district/ 40, single, Kirkuk, Iraq |
Assistant Lecturer, Northern Technical University (NTU), Oil and Gas Techniques Engineering College, Kirkuk, Renewable Energy Techniques Engineering Department
Mustafa Hussein Bahaulddin is an emerging academic and researcher currently serving as an Assistant Lecturer at Northern Technical University (NTU), within the Renewable Energy Techniques Engineering Department, College of Oil and Gas Techniques Engineering in Kirkuk. Prior to joining NTU, he worked as a permanent staff member and lecturer at Imam Jaafar Al-Sadiq University in Kirkuk for two and a half years. During that time, he also served as an external lecturer at the College of Oil and Gas Techniques Engineering in Kirkuk, specifically in the Fuel and Energy Techniques Engineering Department.
He earned his Master’s degree in Mechanical Engineering from Selçuk University, Turkey, in 2019, with a research focus on nanofiber composite materials.
Mr. Bahaulddin’s academic interests span a range of interdisciplinary fields, including nanomaterials, renewable energy, materials science, energy systems, applied mechanics, and applied physics. His first research publication, centered on nanofiber composite materials, marks the beginning of a research trajectory aimed at contributing to advanced material technologies and sustainable energy solutions.
Actively engaged in academic service, Mr. Bahaulddin has reviewed six research articles submitted to the 3rd Conference of Northern Technical University, showcasing his commitment to maintaining scholarly quality and academic integrity. He currently has six additional articles in preparation, with a focus on nanomaterials, energy applications, and advanced mechanical and physical systems.
With a strong foundation in applied sciences and a growing research portfolio, Mustafa Hussein Bahaulddin is dedicated to advancing knowledge in his fields of interest and contributing meaningfully to both academic and practical innovations in energy and materials engineering.
Skills
Microsoft applications (85%)
Origin Lab 8 (85%)
Matlab (75%)
Autocad (85%)
Visual Basic (80%)
Adobe programs (80%)
sigma plot (70%)
Supervision
Samir Najat Shakir , Seljuk Napoleon Fateh, Mohammed Tahseen Ismail, Ali Ihsan Hassan
Year: 2024Academic Degree: Bachelor
Supervisor Type: Supervisor
Supervisor State: Graduated
Modeling and Analysis of a Spark-Ignition Engine Using Two Types of Fuel: LPG and Gasoline Using MATLAB Software."
Jasim Mohammed Hassan Ahmed Ramadan Ibrahim
Year: 2024Academic Degree: Bachelor
Supervisor Type: Supervisor
Supervisor State: Graduated
Improving performance of photovoltaic panel by reconfigurability in partial shading condition
Ahmad Abdul-Amir Shakur Ibrahim Mumtaz Ibrahim Ahmad Iyad Ali Ahmad Nazem Qanbar
Year: 2024Academic Degree: Bachelor
Supervisor Type: Supervisor
Supervisor State: Graduated
Investigation The Heat Exchanger Performance in Combi Boilers for Different Fin Geometries
Ahmad Ibrahim Aziz, Muhammad Ahmad Abdullah, Mansour Ali Rajab, Ahmad Jaleel Ibrahim
Year: 2024Academic Degree: Bachelor
Supervisor Type: Supervisor
Supervisor State: Graduated
Design, Modeling and analysis of a PEM Fuel Cell / Supercapacitor Hybrid Vehicle
Academic Qualification
Master
Jan 28, 2016 - Apr 18, 2019Focused on enhancing PAN/PMMA composite nanofiber materials properties
Working Experience
Assistant lecturer in imam jafer elsadiq university/kirkuk [Assistant lecturer]
Nov 1, 2022 - Apr 4, 2025I was a permanent staff member at the university and worked as a lecturer.
Assistant lecturer [Assistant lecturer northern technical university]
Oct 1, 2022 - Jun 1, 2024I was an external lecturer at fuel and energy department
Publications
Lead-Acid Charge Controller For Stand Alone PV System
Aug 1, 2026Journal Journal of Research in Engineering and Computer Sciences
publisher Head Start Services for Education and Research
Issue 01
Volume 4
In this paper, in an autonomous PV system, battery charging control is performed using DC to DC Buck converter. The battery charging procedure is managed by the DC to DC Buck Converter. In order to guarantee that the battery is charged steadily and effectively, MPPT techniques are employed. lead-acid battery is employed as the energy storage unit due to its cost-effectiveness. To make sure the system operates effectively, it must function at the maximum power point (MPP). Therefore, battery charging control is designed to track the MPP and maintain optimal performance of the PV system. Incremental Conductance (IC) methods. The proposed of this methods are applied to an autonomous PV system modeled in the MATLAB-Simulink program using identical sampling times at different step sizes. MATLAB-Simulink, a popular program in electrical engineering and system modeling, is used to model the system in order to confirm that it operates accurately and effectively. In this simulation, several step sizes are compared using the same sampling times. The compared of simulation results based on control performance criteria represented by settling time and steady state error. One of the most effective methods for monitoring the Maximum Power Point (MPP) in standalone PV systems is the Incremental Conductance (IC) approach. The PV system's performance can be maximized through system simulation, guaranteeing exact control over battery charging. The PV system's battery life and energy efficiency can be increased by achieving system stability and precisely tracking the MPP.
INVESTIGATION OF ELECTRICAL CONDUCTIVITY AND HYDROPHOBIC/HYDROPHILIC INTERACTION OF PAN + PMMA COMPOSITE NANOFIBERS WITH AG NANOWIRE PRODUCED BY ELECTROSPINNING METHOD
Aug 29, 2018Journal INTERNATIONAL SCIENTIFIC JOURNAL
publisher "MACHINES. TECHNOLOGIES. MATERIALS."
Issue 8
Volume 329-332
In this study, the electrical conductivities and hydrophobic/hydrophilic properties of Polyacrylonitrile (PAN) + Polymethyl methacrylate (PMMA) composite nanofibers reinforced with nanowires were be investigated. The nanofibers are produced by the electrospin method. Their electrical conductivities and their hydrophobic/ hydrophilic properties were examined. The maximum the electrical conductivity value is 0.00298 S/cm at PAN + PMMA composite nanofibers with Ag nanowires (5 wt. %). The the biggest static contact angle occurred in PAN+PMMA composite nanofibers with 1 wt. % Ag nanowire. The static contact angles of all PAN + PMMA composite nanofibers with Ag nanowire were found to be bigger than those of PAN + PMMA composite nanofibers.
Conferences
Arduino-Based Smart Energy Monitoring and Efficiency Analysis for Household Refrigerators: Towards Sustainable Power Management and Smart Grid Integration
Apr 20, 2025 - Apr 21, 2025Country Iraq
Location Sulaymaniyah
Experimental study of thermal performance of transparent tri-pyramid solar water collector: a case study of Iraq
Apr 20, 2025 - Apr 21, 2025Country Iraq
Location Sulaymaniyah
INVESTIGATION OF ELECTRICAL CONDUCTIVITY AND HYDROPHOBIC/HYDROPHILIC INTERACTION OF PAN + PMMA COMPOSITE NANOFIBERS WITH AG NANOWIRE PRODUCED BY ELECTROSPINNING METHOD
Aug 1, 2018 - Aug 3, 2018Publisher "MACHINES. TECHNOLOGIES. MATERIALS."
Country Bulgaria
Location Sofia