SOONTORNCHAINACKSAENG, Thanakom . Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling. Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 47, n.8, p. 449-454, july 2017. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/article/parameters-analysis-and-potential-of-energy-storage-case-study-solar-collector-for-diurnal-water-heating-and-nocturnal-water-cooling/>. Date accessed: 19 nov. 2024. doi:http://dx.doi.org/.
Soontornchainacksaeng, T. (2001). Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling. Strojniški vestnik - Journal of Mechanical Engineering, 47(8), 449-454. doi:http://dx.doi.org/
@article{., author = {Thanakom Soontornchainacksaeng}, title = {Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {47}, number = {8}, year = {2001}, keywords = {nocturnal water cooling; water heating; case study; potential of energy storage; Parameters analysis; }, abstract = {This research used computer program to calculate the parameters analysis and potential of systems of energy storage by solar collector for diurnal water heating and nocturnal water cooling. Solar collector has surface area of 1.67 m^2 with capacity of water storage tank of 60 litres/day and the average solar radiation incident on surface area of 400 W/m^2. The compound parameters such as; air temperature transmittance, absorbtance, heat transfer coefficient, collector heat removal factor were simulated by mathematic equations. During diurnal period, solar collector stored thermal energy and make temperature of water in the system increase. During the nocturnal period, solar collector releases thermal energy into sky radiation which influences solar collector as well as water in the system are cooled down. Computer simulation program approved the maximum temperature of solar collector heating system is 74.77°C and efficiency of solar collector system were observed 56% followed by 53% and 51% respectively at slope of 15° followed by 5° and 30°. Minimum temperature of water cooling system by sky radiation, is 0.04°C and the efficiencies of solar collector system were found 60% followed by 57% and 53% at slope of 5° followed by 15° and 30° significantly.}, issn = {0039-2480}, pages = {449-454}, doi = {}, url = {https://www.sv-jme.eu/article/parameters-analysis-and-potential-of-energy-storage-case-study-solar-collector-for-diurnal-water-heating-and-nocturnal-water-cooling/} }
Soontornchainacksaeng, T. 2001 July 47. Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 47:8
%A Soontornchainacksaeng, Thanakom %D 2001 %T Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling %B 2001 %9 nocturnal water cooling; water heating; case study; potential of energy storage; Parameters analysis; %! Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling %K nocturnal water cooling; water heating; case study; potential of energy storage; Parameters analysis; %X This research used computer program to calculate the parameters analysis and potential of systems of energy storage by solar collector for diurnal water heating and nocturnal water cooling. Solar collector has surface area of 1.67 m^2 with capacity of water storage tank of 60 litres/day and the average solar radiation incident on surface area of 400 W/m^2. The compound parameters such as; air temperature transmittance, absorbtance, heat transfer coefficient, collector heat removal factor were simulated by mathematic equations. During diurnal period, solar collector stored thermal energy and make temperature of water in the system increase. During the nocturnal period, solar collector releases thermal energy into sky radiation which influences solar collector as well as water in the system are cooled down. Computer simulation program approved the maximum temperature of solar collector heating system is 74.77°C and efficiency of solar collector system were observed 56% followed by 53% and 51% respectively at slope of 15° followed by 5° and 30°. Minimum temperature of water cooling system by sky radiation, is 0.04°C and the efficiencies of solar collector system were found 60% followed by 57% and 53% at slope of 5° followed by 15° and 30° significantly. %U https://www.sv-jme.eu/article/parameters-analysis-and-potential-of-energy-storage-case-study-solar-collector-for-diurnal-water-heating-and-nocturnal-water-cooling/ %0 Journal Article %R %& 449 %P 6 %J Strojniški vestnik - Journal of Mechanical Engineering %V 47 %N 8 %@ 0039-2480 %8 2017-07-07 %7 2017-07-07
Soontornchainacksaeng, Thanakom. "Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling." Strojniški vestnik - Journal of Mechanical Engineering [Online], 47.8 (2001): 449-454. Web. 19 Nov. 2024
TY - JOUR AU - Soontornchainacksaeng, Thanakom PY - 2001 TI - Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling JF - Strojniški vestnik - Journal of Mechanical Engineering DO - KW - nocturnal water cooling; water heating; case study; potential of energy storage; Parameters analysis; N2 - This research used computer program to calculate the parameters analysis and potential of systems of energy storage by solar collector for diurnal water heating and nocturnal water cooling. Solar collector has surface area of 1.67 m^2 with capacity of water storage tank of 60 litres/day and the average solar radiation incident on surface area of 400 W/m^2. The compound parameters such as; air temperature transmittance, absorbtance, heat transfer coefficient, collector heat removal factor were simulated by mathematic equations. During diurnal period, solar collector stored thermal energy and make temperature of water in the system increase. During the nocturnal period, solar collector releases thermal energy into sky radiation which influences solar collector as well as water in the system are cooled down. Computer simulation program approved the maximum temperature of solar collector heating system is 74.77°C and efficiency of solar collector system were observed 56% followed by 53% and 51% respectively at slope of 15° followed by 5° and 30°. Minimum temperature of water cooling system by sky radiation, is 0.04°C and the efficiencies of solar collector system were found 60% followed by 57% and 53% at slope of 5° followed by 15° and 30° significantly. UR - https://www.sv-jme.eu/article/parameters-analysis-and-potential-of-energy-storage-case-study-solar-collector-for-diurnal-water-heating-and-nocturnal-water-cooling/
@article{{}{.}, author = {Soontornchainacksaeng, T.}, title = {Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {47}, number = {8}, year = {2001}, doi = {}, url = {https://www.sv-jme.eu/article/parameters-analysis-and-potential-of-energy-storage-case-study-solar-collector-for-diurnal-water-heating-and-nocturnal-water-cooling/} }
TY - JOUR AU - Soontornchainacksaeng, Thanakom PY - 2017/07/07 TI - Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling JF - Strojniški vestnik - Journal of Mechanical Engineering; Vol 47, No 8 (2001): Strojniški vestnik - Journal of Mechanical Engineering DO - KW - nocturnal water cooling, water heating, case study, potential of energy storage, Parameters analysis, N2 - This research used computer program to calculate the parameters analysis and potential of systems of energy storage by solar collector for diurnal water heating and nocturnal water cooling. Solar collector has surface area of 1.67 m^2 with capacity of water storage tank of 60 litres/day and the average solar radiation incident on surface area of 400 W/m^2. The compound parameters such as; air temperature transmittance, absorbtance, heat transfer coefficient, collector heat removal factor were simulated by mathematic equations. During diurnal period, solar collector stored thermal energy and make temperature of water in the system increase. During the nocturnal period, solar collector releases thermal energy into sky radiation which influences solar collector as well as water in the system are cooled down. Computer simulation program approved the maximum temperature of solar collector heating system is 74.77°C and efficiency of solar collector system were observed 56% followed by 53% and 51% respectively at slope of 15° followed by 5° and 30°. Minimum temperature of water cooling system by sky radiation, is 0.04°C and the efficiencies of solar collector system were found 60% followed by 57% and 53% at slope of 5° followed by 15° and 30° significantly. UR - https://www.sv-jme.eu/article/parameters-analysis-and-potential-of-energy-storage-case-study-solar-collector-for-diurnal-water-heating-and-nocturnal-water-cooling/
Soontornchainacksaeng, Thanakom"Parameters analysis and potential of energy storage : case study – solar collector for diurnal water heating and nocturnal water cooling" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 47 Number 8 (07 July 2017)
Strojniški vestnik - Journal of Mechanical Engineering 47(2001)8, 449-454
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.
This research used computer program to calculate the parameters analysis and potential of systems of energy storage by solar collector for diurnal water heating and nocturnal water cooling. Solar collector has surface area of 1.67 m^2 with capacity of water storage tank of 60 litres/day and the average solar radiation incident on surface area of 400 W/m^2. The compound parameters such as; air temperature transmittance, absorbtance, heat transfer coefficient, collector heat removal factor were simulated by mathematic equations. During diurnal period, solar collector stored thermal energy and make temperature of water in the system increase. During the nocturnal period, solar collector releases thermal energy into sky radiation which influences solar collector as well as water in the system are cooled down. Computer simulation program approved the maximum temperature of solar collector heating system is 74.77°C and efficiency of solar collector system were observed 56% followed by 53% and 51% respectively at slope of 15° followed by 5° and 30°. Minimum temperature of water cooling system by sky radiation, is 0.04°C and the efficiencies of solar collector system were found 60% followed by 57% and 53% at slope of 5° followed by 15° and 30° significantly.