Graduation Year
2005
Document Type
Thesis
Degree
M.S.M.E.
Degree Granting Department
Mechanical Engineering
Major Professor
Muhammad Rahman, Ph.D.
Committee Member
Autar Kaw, Ph.D.
Committee Member
Frank Pyrtle, III, Ph.D.
Keywords
heat, convection, flow, relative humidity, contaminant removal
Abstract
This study considers airflow simulations to evaluate the impact of different window air-conditioner locations on the thermal comfort in an office room (OR). This thesis compares the air distribution for an office room by using computational fluid dynamics (CFD) modeling to previously studied rooms. The air distribution was modeled on a typical office room window air conditioning unit, air supply from a high pressure on the top and the low pressure exhaust on the bottom considering the existing manufacturing ratios for surface areas. The discharge angle for the supply grill of the AC unit was varied from 20 to 40 degrees. The position of the air conditioner was also varied and studied at 60%, 75% and 90% of the total height of the room. In addition, the location of the occupant within the office room was varied, two locations were studied, one where the occupant is far from the unit and the other to closer to the AC unit at the middle of the room. Predictions of the air movement, room temperature, room relative humidity, comfort level, and distribution of contaminants within the office room are shown. Analysis of these simulations is discussed. Energy estimations are also performed and evaluated. The positions of the air-conditioner unit, the inlet angle and the occupant position in the office room have shown to have an important impact on supply controlling air quality and thermal comfort. Results are in good agreements with the experimental data.
The primary function of a HVAC (heating refrigerating and air conditioning) system is the generation and maintenance of comfort for occupants in a conditioned space [1]. This work also provides a detailed analysis of three-dimensional mixed convective flow induced by a window air conditioning system. Using a three dimensional CFD simulation, several characteristics of human comfort are analyzed. The results of this study show a strong relation between the position of the wall-mounted air conditioning unit and the thermal comfort of the occupant. The results are in good agreement with the experimental data and the two dimensional simulation.
Scholar Commons Citation
Begdouri, Hamza, "Analysis Of The Impact Of The Location Of A Window Type Air-Conditioner On Thermal Comfort In An Office Room" (2005). USF Tampa Graduate Theses and Dissertations.
https://digitalcommons.usf.edu/etd/2780
