Multi-objective Optimization of Multi-tube Heat Exchanger Network Considering the Effect of Different Nanoparticles

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.

Hajabdollahi H.; Masoumpour b.

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

Journal Paper

Paper Information

Journal: Modares Mechanical Engineering Year:2019 | Volume:19 | Issue:6 Page(s): 1507-1518

Download Full-Text

Persian Verion

View:

375

Download:

Cites:

Information Journal Paper

Title

Multi-objective Optimization of Multi-tube Heat Exchanger Network Considering the Effect of Different Nanoparticles

Author(s)

Hajabdollahi H. | Masoumpour b. | Issue Writer Certificate

Keywords

ThermoQ2

Conomic OptimizationQ1

Multi-Tube Heat Exchanger NetworkQ1

Different NonaparticlesQ2

Genetic AlgorithmQ2

Abstract

The present study investigated modeling and optimization of a multi-tube heat exchanger (MTHE) network considering the effect of different nanoparticles on the tube side. After thermal modeling in ε-NTU method, optimization was performed from the perspective of increasing effectiveness and decreasing total annual cost as 2 objective functions, using 8 designe parameters, including number of MTHE and particles volumetric concentration. In addition, optimizaation was performed at 3 various cold mass flow rates and different nanoparticles including AL2O3, CuO and ZrO2 and result were compared with the base fluid (water). The results show that the Pareto front was improved in nanoparticles case, and the rate of improvement in CuO nanoparticles case, especially in higher effectiveness and lower nanofluid mass flow rates is more significant compared with the other studied cases. In addition, because of the improved thermal performance of MTHE network in the nanoparticles case, the heat transfer surface area and consequently the volume of MTHE network for fixed values of effectiveness are significantly reduced. Finally, after display of the results of the design parameters versus effectiveness, sensitive analysis of particle volumetric concentration on the objective functions was performed for typical piont and the results were discussed.

Cites

No record.

References

No record.

Cite

APA: Copy

Hajabdollahi, H., & Masoumpour, b.. (2019). Multi-objective Optimization of Multi-tube Heat Exchanger Network Considering the Effect of Different Nanoparticles. MODARES MECHANICAL ENGINEERING, 19(6 ), 1507-1518. SID. https://sid.ir/paper/178635/en

Vancouver: Copy

Hajabdollahi H., Masoumpour b.. Multi-objective Optimization of Multi-tube Heat Exchanger Network Considering the Effect of Different Nanoparticles. MODARES MECHANICAL ENGINEERING[Internet]. 2019;19(6 ):1507-1518. Available from: https://sid.ir/paper/178635/en

IEEE: Copy

H. Hajabdollahi, and b. Masoumpour, “Multi-objective Optimization of Multi-tube Heat Exchanger Network Considering the Effect of Different Nanoparticles,” MODARES MECHANICAL ENGINEERING, vol. 19, no. 6 , pp. 1507–1518, 2019, [Online]. Available: https://sid.ir/paper/178635/en

Related Journal Papers