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Volkan Kırmacı
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Journal Articles

Performance Assessment of Parallel Connected Ranque–Hilsch Vortex Tubes Using Nitrogen, Oxygen, and Air With Brass and Polyamide Nozzles: An Experimental Analysis

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Volkan Kirmaci
Journal: ASME Journal of Heat and Mass Transfer
Publisher: ASME
Article Type: Research-Article
J. Heat Mass Transfer. March 2020, 142(3): 031802.
Paper No: HT-19-1378
https://doi.org/10.1115/1.4045645
Published Online: January 13, 2020
View Articletitled, Performance Assessment of Parallel Connected Ranque–Hilsch Vortex Tubes Using Nitrogen, Oxygen, and Air With Brass and Polyamide Nozzles: An Experimental Analysis
Open the PDF for Performance Assessment of Parallel Connected Ranque–Hilsch Vortex Tubes Using Nitrogen, Oxygen, and Air With Brass and Polyamide Nozzles: An Experimental Analysis in another window
Topics: Brass (Metal), Exergy, Flow (Dynamics), Fluids, Nitrogen, Nozzles, Oxygen, Pressure, Temperature, Vortices
Journal Articles

Experimental Study About Performance Analysis of Parallel Connected Ranque–Hilsch Counter Flow Vortex Tubes With Different Nozzle Numbers and Materials

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Hüseyin Kaya, Fahrettin Günver, Onuralp Uluer, Volkan Kırmacı
Journal: ASME Journal of Heat and Mass Transfer
Publisher: ASME
Article Type: Research-Article
J. Heat Mass Transfer. November 2018, 140(11): 112801.
Paper No: HT-18-1134
https://doi.org/10.1115/1.4040707
Published Online: July 23, 2018
View Articletitled, Experimental Study About Performance Analysis of Parallel Connected Ranque–Hilsch Counter Flow Vortex Tubes With Different Nozzle Numbers and Materials
Open the PDF for Experimental Study About Performance Analysis of Parallel Connected Ranque–Hilsch Counter Flow Vortex Tubes With Different Nozzle Numbers and Materials in another window
Topics: Aluminum, Flow (Dynamics), Nozzles, Pressure, Vortices, Brass (Metal), Exergy, Temperature, Heating and cooling
Journal Articles

An Experimental Investigation of Performance and Exergy Analysis of a Counterflow Vortex Tube Having Various Nozzle Numbers at Different Inlet Pressures of Air, Oxygen, Nitrogen, and Argon

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Volkan Kırmacı, Onuralp Uluer, Kevser Dincer
Journal: ASME Journal of Heat and Mass Transfer
Publisher: ASME
Article Type: Research Papers
J. Heat Mass Transfer. December 2010, 132(12): 121701.
https://doi.org/10.1115/1.4002284
Published Online: September 17, 2010
View Articletitled, An Experimental Investigation of Performance and Exergy Analysis of a Counterflow Vortex Tube Having Various Nozzle Numbers at Different Inlet Pressures of Air, Oxygen, Nitrogen, and Argon
Open the PDF for An Experimental Investigation of Performance and Exergy Analysis of a Counterflow Vortex Tube Having Various Nozzle Numbers at Different Inlet Pressures of Air, Oxygen, Nitrogen, and Argon in another window
Topics: Exergy, Exergy analysis, Nozzles, Pressure, Vortices, Nitrogen, Oxygen, Cooling
Journal Articles

An Experimental Investigation of the Cold Mass Fraction, Nozzle Number, and Inlet Pressure Effects on Performance of Counter Flow Vortex Tube

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Volkan Kırmacı, Onuralp Uluer
Journal: ASME Journal of Heat and Mass Transfer
Publisher: ASME
Article Type: Research Papers
J. Heat Mass Transfer. August 2009, 131(8): 081701.
https://doi.org/10.1115/1.3111259
Published Online: June 5, 2009
View Articletitled, An Experimental Investigation of the Cold Mass Fraction, Nozzle Number, and Inlet Pressure Effects on Performance of Counter Flow Vortex Tube
Open the PDF for An Experimental Investigation of the Cold Mass Fraction, Nozzle Number, and Inlet Pressure Effects on Performance of Counter Flow Vortex Tube in another window
Topics: Flow (Dynamics), Nozzles, Pressure, Vortices, Temperature, Cooling, Heating, Separation (Technology)