Details

Title

Vibration-Assisted Laser Surface Texturing and Electromachining for the Intensification of Boiling Heat Transfer in a Minichannel

Journal title

Archives of Metallurgy and Materials

Yearbook

2017

Numer

No 4

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences

Date

2017

Identifier

ISSN 1733-3490

References

Boertz (2016), Turbulence model evaluation for numerical modelling of turbulent flow and heat transfer of nanofluids, Appl Mech Mater, 20, 831. ; (2005), Calibration certificate No Calibration laboratory No accredited by Czech ccreditation Institute under ČSN EN ISO for Calibration of non - contact temperature measuring instruments, null, 28, 1501035. ; Orzechowski (2016), Quasi - stationary phase change heat transfer on a fin Web, null, 114. ; Grabas (null), Vibration - assisted laser surface texturing of metals as a passive method for heat transfer enhancement, Exp Therm Fluid Sci, 13, 499. ; Piasecka (2016), Comparison of two methods for contactless surface temperature measurement Web, null, 37. ; Pastuszko (2012), Pool boiling on surfaces with mini - fins and micro - cavities, Phys Conf Ser, 1. ; Dominic (null), An experimental investigation of wavy and straight minichannel heat sinks using water and nanofluids pages, Therm Sci Eng Appl, 24, 2015. ; Piasecka (2017), Calculations of flow boiling heat transfer in a minichannel based on Liquid Crystal and Infrared Thermography data Heat, Eng, 30, 332. ; Piasecka (null), Impact of selected parameters on refrigerant flow boiling heat transfer and pressure drop in minichannels, Int J Refrig, 198. ; Radek (2009), The influence of laser treatment on the properties of electro - spark deposited coatings -, Materialy Metallic Materials, 14, 31. ; Pastuszko (2013), Pool boiling on rectangular fins with tunnel - pore structure EPJ Web of Conferences, null, 01020. ; Yu (null), Flow boiling heat transfer and two - phase flow instability of nanofluids in a minichannel Heat Transfer, Sur, 23, 137. ; Dąbek (1745), alcohol boiling heat transfer on multilayer meshed surfaces, AIP Conference Proceedings, 1. ; Cieśliński (2013), Influence of surface curvature on sessile droplet contact angle of nanofluids Fluid - Flow, Trans Inst, 19, 125. ; Depczyński (2014), of copper layers with a controlled porous structure METAL rd Metallurgy and Materials, Sintering Int, 15, 1219. ; Piasecka (null), Correlations for flow boiling heat transfer in mini - channels with various orientations, Int J Heat Mass Transf, 81. ; Orzechowski (2009), Boiling heat transfer on the fin with laser modified surface on Convective Heat and Mass Transfer in Sustainable, Int Energy Tunisia, 26, 1. ; Grabas (2014), Impact of the parameters of laser - vibration treatment on the roughness of aluminium melts, Adv Mater Res, 27, 874. ; (null), www haynesintl com, null, 29. ; Piasecka (2013), Determination of the Temperature field using Liquid Crystal Thermography and analysis of two - phase flow structures in research on boiling heat transfer in a minichannel XX, Meas Syst, 31, 205. ; Radek (2011), Preliminary data of boiling heat transfer of laser treated heat exchanger surfaces in Scientific Basis of Modern Technologies : Experience and Prospects Khmelnytskyi National University Jaremche Ukraine, null, 236. ; Blasiak (2014), Heat transfer and thermal deformations in non - contacting face seals, Therm Sci Technol, 17, 1. ; Maciejewska (2016), The solution of a two - dimensional inverse heat transfer problem using the Trefftz method, Eng, 12, 157. ; Cieśliński (2016), Performance of a plate heat exchanger operated with water - nanofluid, Appl Mech Mater, 21, 831. ; Prajapati (2014), Flow boiling heat transfer enhancement by using ZnO - water nanofluids pages, null, 22. ; Sommers (2013), Using micro - structural surface features to enhance the convective flow boiling heat transfer of a on aluminum, Int J Heat Mass Transf, 11, 134. ; Blasiak (null), An analytical approach to heat transfer and thermal distortions in non - contacting face seals, Int J Heat Mass Transf, 18, 81. ; Chehade (2013), Boiling local heat transfer enhancement in minichannels using nanofluids Nanoscale, Res Lett, 25, 8. ; Depczyński (null), The selected properties of porous layers formed by pulse micro - welding technique th Con Metallurgy and Materials, Int, 16, 1087. ; Piasecka (2002), Theoretical and experimental investigations into flow boiling heat transfer in a narrow channel ( in Polish Ph University of Technology, Thesis. ; Piasecka (2014), Laser texturing spark erosion and sanding of the surfaces and their practical applications in heat exchange devices, Adv Mater Res, 26, 874. ; Piasecka (2012), The study of boiling heat transfer in vertically and horizontally oriented rectangular minichannels and the solution to the inverse heat transfer problem with the use of the Beck method and Trefftz functions, Therm Fluid Sci, 38, 19. ; Piasecka (null), Heat transfer coefficient during flow boiling in a minichannel at variable spatial orientation, Therm Fluid Sci, 459. ; Maciejewska (2017), function - based thermal solution of inverse problem in unsteady - state flow boiling heat transfer in a minichannel, Int J Heat Mass Transf, 107.

DOI

10.1515/amm-2017-0296

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