Trnsys model type 3258
At the postgraduate level, it offers nine M.Sc and six Ph.D programs in various disciplines across all four departments. It offers eight internationally accredited undergraduate engineering programs in Architectural, Chemical and Process, Civil, Electrical and Computer, Industrial, Mechanical, Mechatronics, and Petroleum and Natural Gas engineering. Issa Salem Al-Fori (Dean`s Office) 5ĩ College of Engineering EXECUTIVE SUMMARY The College of Engineering at Sultan Qaboos University is among the first-ranked Engineering Colleges in GCC and the best Engineering College in Oman. Yasser Saif Al-Shukaily (Center for Educational Technology) Mr. Nabil Humaid Al-Rawahi (Center for Educational Technology) Mr. Mohammed Ali Al-Mawali (Center for Educational Technology) Mr. Sagharoun Said Al-Hammadi (Center for Educational Technology) Mr. Abdullah Hamed Al-Badi (Dean, College of Engineering) Designed by: Athra Hamed Al-Amri (Center for Educational Technology) Photographs by: Mr. Ibrahim Mattar Al-Saifi (Assistant Director of Administration, Dean`s Office) 4Ħ Directions by: Prof. Mohsen Ghanma (Department of Civil and Architectural Engineering) Mr. Bait-Suwailam (Department of Electrical and Computer Engineering) Eng. Muhammad Bilal Waris (Department of Civil and Architectural Engineering) Dr. Gujrathi (Department of Petroleum and Chemical Engineering) Dr. Abdullah Özer (Department of Mechanical and Industrial Engineering) Dr. Sabah Ahmed Al-Sulaiman (Chair, Department of Mechanical and Industrial Engineering) Dr. The experimental and numerical results were in a good agreement.5 College of Engineering PUBLICATION AND WEB COMMITTEE «FOCUSING ON PUBLICATIONS OF OUR COLLEGE» Prof. Thermal imaging was used to acquire the average surface temperatures of the panels in the experimental investigations. Plastic tubes for liquid heat carrier (water in the presented study) were embedded at the bottom of the plaster layer. The experimental panels contained a 15 mm thick layer of gypsum plaster comprising 30 wt.% of microencapsulated phase change material. The model was validated with data obtained from experiments with thermally activated panels. The model was developed in MATLAB and subsequently implemented as a TRNSYS type. The paper reports the development of a quasi 1D model of a thermally activated layer with phase change material. A substantial simplification of the simulated problem is usually necessary to reduce the computational demand. Therefore, the computational demand of simulation models of buildings or HVAC systems can be quite constraining for their practical application. Simulations of building performance or HVAC systems performance usually cover a time period of several weeks, months or even a year.