Mohammed nadhim majeed arif
Research InterestsArchitectural design
Environmental design
| Gender | MALE |
|---|---|
| Place of Work | Technical Engineering College/ Kirkuk |
| Position | NA |
| Qualification | Master |
| Speciality | Architecture |
| mohammed.nadhim25@ntu.edu.iq | |
| Phone | 07701328999 |
| Address | tapa, kirkuk, Kirkuk, Iraq |
Languages
كردي (100%)
عربي (100%)
انكليزي (90%)
Skills
Interior & Exterior Design (100%)
Academic Qualification
BSc
Sep 1, 2005 - Jul 15, 2009Bachelor in computer science from Kirkuk university
BSc
Sep 15, 2010 - Jul 11, 2015Bachelor in Architecture from Cihan university
MSc
Oct 1, 2018 - Feb 28, 2021Master in Architectural design
Working Experience
مشروع تايم سنتر مول [مدير القسم المعماري في الموقع]
Feb 1, 2018 - Mar 1, 2020اشراف على تنفيذ الاعمال المعمارية الداخلية والخارجية
مشروع مول اوف كركوك [مهندس معماري]
Mar 2, 2020 - Mar 1, 2022تصميم واشراف على تنفيذ التصميم الداخلي للمشروع
مشروع مجمع سكاى الند السكني [مدير مشروع]
Mar 10, 2022 - Sep 30, 2024تصميم وتنفيذ المشروع
Publications
Impact of Building Typology on Daylight Optimization Using Building Information Modeling: Apartments in Erbil City as a Case Study
Dec 24, 2019Journal Journal of Daylighting
Issue 2, December 2019
Volume 6
Daylight represents one of the crucial factors that affect directly on the building performance and its occupants. This study assesses the daylight performance in the multi-storey residential buildings (apartments) in Erbil city. It aims to find out the impact of building typology on daylighting quality and quantity. The endeavour of this research is to determine the optimal plan typology in providing sufficient daylight levels. A simulation method has been used with an academic licensed Revit Architecture 2019 with plugged insight daylight analysis as one of Building Information Modeling (BIM) tools for achieving this goal. Five multi-storey residential buildings were selected as cases of study. Three types of simulation were run on each project: Illuminance, LEED, and Daylight Autonomy to achieve results. The results were analyzed and compared with daylight standards levels. The results demonstrated that the point typology is the best type of plans among all cases in terms of providing optimal daylight performance, while the double-loaded plan typology was the worst. The study concluded that the plan typology has an obvious impact on achieving daylight performance in the multi-storey residential buildings. The current research can contribute to identifying the shortcomings of daylight levels in buildings seeking to overcome it in the early phases of design.