Investigation on cooling the hot tube surfaces of vortex tube at different pressure and fraction with comprehensive thermal performance analysis

• Published in: Case studies in thermal engineering Vol. 22; p. 100739
• Main Authors: Sarifudin, Alfan, Agung Pambudi, Nugroho, Wijayanto, Danar Susilo, Widiastuti, Indah
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.12.2020; Elsevier
• Subjects: Coefficient of the performance (COP); Experiment; Heat flow; Isentropic efficiency; Mathematical analysis; Heat flow; Mathematical analysis; Experiment; Coefficient of the performance (COP); Isentropic efficiency
• ISSN: 2214-157X; 2214-157X
• DOI: 10.1016/j.csite.2020.100739

The Raque Hilsch Vortex Tube (RHVT) is a heat pump system that uses the phenomenon of compressed vortex airflow in a tube for cooling and heating. This study aims to determine the effect of pressure and fraction on RHVT by cooling the surface of the hot tube naturally and forcefully. Tube type testing was conducted with a pressure variation of 0.5–1.5 bar and a fraction of 30%–70%. The results of the analysis show that forced cooling on the surface of the hot tube decreases the heating performance (Th, ΔTh, Q˙h, ηish, and COPh) and improves the cooling performance (Tc, ΔTc, Q˙c, ηisc and COPref). The higher pressure increases the performance of ThΔTh, Q˙h, TcΔTc, and Q˙c, and decrease the performance of ηish, COPh, ηisc, and COPref. The fraction 40% is the most optimal parameter for the performance of TcΔTc, Q˙c. The 60% fraction works best for Th, ΔTh, Q˙h, ηish, and COPh, while the fraction 70% works best for Q˙c and COPref. The most optimal performance values include Th (41 °C), ΔTh (14 °C), Q˙h(2.369kJ/s), ηish(24.21%), COPh (0.092), Tc (13.450 °C), ΔTc (13.550 °C), Q˙c(3.280kJ/s), ηisc (20.84%), and COPref (0.123).