Effective thermal management through feasibility study of energy recuperation on synthesised SiC-propylene glycol nanofluids for achieving environmental sustainability
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Publisher
Springer Science and Business Media LLC
Link
https://link.springer.com/content/pdf/10.1007/s10973-024-13399-8.pdf
Reference63 articles.
1. Choi SUS, Singer DA, Wang HP. Developments and applications of non-Newtonian flows. ASME Fed. 1995;66:99–105.
2. Magazzino C, Falcone PM. Assessing the relationship among waste generation, wealth, and GHG emissions in Switzerland: some policy proposals for the optimization of the municipal solid waste in a circular economy perspective. J Clean Prod. 2022;351:131555.
3. Falcone PM, Imbert E, Sica E, Morone P. Towards a bioenergy transition in Italy? Exploring regional stakeholder perspectives towards the Gela and Porto Marghera biorefineries. Energy Res Soc Sci. 2021;80:102238.
4. Azmi WH, Hamid KA, Usri NA, Mamat R, Sharma KV. Heat transfer augmentation of ethylene glycol: water nanofluids and applications—a review. Int Commun Heat Mass Transf. 2016;75:13–23.
5. Akash AR, Pattamatta A, Das SK. Experimental study of the thermohydraulic performance of water/ethylene glycol-based graphite nanocoolant in vehicle radiators. J Enhanced Heat Transf. 2019;26:345–63.
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