Analytical optimization of a solar absorption cooling system

Q: How can I download an article?

To download an article from SID, first log in to the site, search for the article title, and click on the 'Download Article' option.

Q: How can I download an ISI article?

To download an ISI article on SID, enter the keyword or article title in the search bar, view the relevant results, click on the desired article, and select the 'Download Article' option.

Q: How can I access the SID database?

To access the SID database, visit SID.ir, create an account, and log in to access scientific resources.

Q: Is downloading articles from SID free?

Some articles on SID are available for free, while others require payment. Details are specified on the article's page.

Jahangard Mehdi; MOHSENI ARASTEH AFSHIN

مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

Journal Paper

Paper Information

Journal: Journal of Renewable and New Energy Year:2022 | Volume:8 | Issue:2 Page(s): 120-130

Download Full-Text

Persian Verion

View:

334

Download:

Cites:

Information Journal Paper

Title

Analytical optimization of a solar absorption cooling system

Author(s)

Jahangard Mehdi | MOHSENI ARASTEH AFSHIN | Issue Writer Certificate

Keywords

Solar collector

Solar absorption cooling system

Online coupling Matlab to EES software

Abstract

One of the applications of solar energy is Solar absorption cooling system in air conditioning systems. Energy for these systems is supplied using a solar system. In this research, two different problems have been investigated by changing the conditions of an absorption system. So, the pressure in the low pressure region in one of the problems and the pressure in the high pressure region in the other problems is constant. Therefore, the best operating mode can be investigated for the selected system. According to the conditions of this problem, the best operation conditions for this selected solar absorption system were evaporator temperature of 7 C and heat flux of 530W/m2. Finally, some important parameters of the Solar collector (glass cover thickness, distance between the absorber pipes, distance between the absorber plate and the glass cover, specific heat capacity of the fluid, heat transfer coefficient of air, heat transfer coefficient of fluid) are optimized to supply the required load of the absorption system. According to the results, the glass cover thickness, the distance between the absorber plate and the glass cover, and the heat transfer coefficient of the fluid are in the optimal conditions. But, the heat absorbed in the collector can be increased by about 10% by changing the distance between the absorber pipes, the specific heat capacity of the fluid, and the heat transfer coefficient of the air. Also, the present results error were about 1% and 1. 5% for modeling of the Solar collector and the absorption system, respectively.

Cites

No record.

References

No record.

Cite

APA: Copy

Jahangard, Mehdi, & MOHSENI ARASTEH, AFSHIN. (2022). Analytical optimization of a solar absorption cooling system. JOURNAL OF RENEWABLE AND NEW ENERGY, 8(2 ), 120-130. SID. https://sid.ir/paper/405902/en

Vancouver: Copy

Jahangard Mehdi, MOHSENI ARASTEH AFSHIN. Analytical optimization of a solar absorption cooling system. JOURNAL OF RENEWABLE AND NEW ENERGY[Internet]. 2022;8(2 ):120-130. Available from: https://sid.ir/paper/405902/en

IEEE: Copy

Mehdi Jahangard, and AFSHIN MOHSENI ARASTEH, “Analytical optimization of a solar absorption cooling system,” JOURNAL OF RENEWABLE AND NEW ENERGY, vol. 8, no. 2 , pp. 120–130, 2022, [Online]. Available: https://sid.ir/paper/405902/en

Related Journal Papers

No record.

Related Seminar Papers

No record.

Related Plans

No record.

Recommended Workshops