Investigation on the thermal performance of evacuated glass-thermal absorber tube collector (EGATC) for air heating application

Zairul Azrul, Zakaria and Zafri Azran, Abdul Majid and Muhammad Amin, Harun and Ahmad Faris, Ismail and Sany Izan, Ihsan and Kamaruzzaman, Sopian and Amir, Abdul Razak and Ahmad Fadzil, Sharol (2021) Investigation on the thermal performance of evacuated glass-thermal absorber tube collector (EGATC) for air heating application. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 79 (2). 48 -64. ISSN 2289-7879. (Published)

Pdf (Open access)
Investigation on the thermal performance of evacuated glass.pdf
Available under License Creative Commons Attribution Non-commercial.

Download (878kB) | Preview


Existing design of Heat-Pipe Evacuated Tube Collector (HP ETC) for solar water heating require storage tank and additional heat exchanger required for air heating application which leads to the extra spacing and costing requirement. HP ETC have better thermal performance to produce high outlet temperature than flat plate collector (FPC), especially during diffuse solar radiation. But HP ETC normally focusing on water heating system. Furthermore, HP ETC and FPC installation need to be positioned either to south or north facing to ensure the solar thermal collector absorbs more solar radiation. Meanwhile, HP ETC need to be tilt at the correct angle to maximize the performance of the system. These could lead to design limitation. The aim of this research is to develop the new design of Evacuated Glass-Thermal Absorber Tube Collector namely EGATC for drying application. It was developed from conventional HP ETC evacuated glass tube. In this study comparison result of EGATC and HP ETC performance were evaluated. The three days outdoor experiment proves that the performance of EGATC was better than HP ETC in air heating application which is provide higher outlet temperature. Based on the result, EGATC (Day 1: 50.9 oC, Day 2: 53.9 oC, Day 3: 49.2 oC) performed better with slightly higher temperature at outlet temperature compare with HP ETC (Day 1: 46.7 oC, Day 2: 50.3 oC, Day 3: 46.9 oC). It is concluded that EGATC have better performance in term of temperature different and outlet temperature as compared to HP ETC. EGATC (Day 1: 53.6%, Day 2: 50.6%, Day 3: 49.8%) also have greater efficiency in term of heat storage capability as compared to HP ETC (Day 1: 42.7%, Day 2: 41.6%, Day 3: 41.1%). Regarding energy buffer storage, EGATC have better energy storage compared to HP ETC at sudden weather change such as diffuse solar radiation during clouds. The outlet temperature of EGATC (42.3 oC) was remained slightly higher compared to HP ETC (39.9 oC) at the beginning. The outlet temperature gradually drops slower during discharging period until the end of the experiment for 15 minutes towards outlet temperature 41.1ºC and 37.2ºC for both EGATC and HP ETC with temperature difference 1.2ºC and 2.7ºC respectively.

Item Type: Article
Additional Information: Indexed by Scopus
Uncontrolled Keywords: Evacuated glass-thermal absorber tube collector (EGATC); Heat pipe evacuated tube collector (HP ETC); Direct-flow evacuated tube collector (Direct-flow ETC); Solar air heating application
Subjects: T Technology > T Technology (General)
T Technology > TJ Mechanical engineering and machinery
Faculty/Division: Institute of Postgraduate Studies
Faculty of Mechanical and Automotive Engineering Technology
Depositing User: Mrs Norsaini Abdul Samat
Date Deposited: 28 Jul 2021 08:52
Last Modified: 28 Jul 2021 08:52
Download Statistic: View Download Statistics

Actions (login required)

View Item View Item