Development of heat absorbing device in a closed room: air cooler/
Mark Jake T. Hisarza, Keith Evand P. Liggayu, Francis Carl A. Paca, Justin Kristian M. Su, and Joeyla Mae T. Sy.--
- x, 98pages: 29cm.
Bachelor's thesis
College in Industrial Technology.--
Includes bibliographic references and index.
The effectiveness of air cooling, particularly in densely populated places, is investigated in this study with a primary focus on alleviating heat stress and improving wellbeing, productivity, and health. Furthermore, it presents an innovative method of cooling enclosed areas by means of thermoelectric cooler that integrates radiative cooling and heat exchange principles. This cooling system consists of multiple essential parts, each with a distinct purpose. For effective heat dissipation, these consist of materials that absorb heat, air-circulating systems, and thermoelectric modules. This research clarifies the design, development, and testing procedures in great depth. This study clarifies the effectiveness and environmental sustainability of the suggested device by providing a thorough account of the design, development, and testing procedure which measures the power consumption and testing of cooling capacity. Functionality and workability got the highest average rating of 4.7 but still there’s room for improvement for aesthetics, which got the lowest rating of 4.3. The system should undergo long-term performance tests, adhere to local laws, and incorporate flexibility for adaptability. Challenges related to technological integration should be addressed. TEC can be an alternative to an air conditioner – compressor based that emits HCFCs which harm the environment.
Air cooling Heat dissipation Cooling capacity test