Study of heat transfer during pool boiling on minifins surface coated with carbon nanotubes

Strąk, E.; Pastuszko, R.; Kłosowiak, R.; Urbaniak, R.

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Tytuł artykułu

Study of heat transfer during pool boiling on minifins surface coated with carbon nanotubes

Autorzy

Strąk E. , Pastuszko R. , Kłosowiak R. , Urbaniak R.

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Abstrakty

The article describes the study of heat transfer during pool boiling on minifins surface coated with nanostructure. This is a molecular level technology used in engineering or mechanical factory. A surface with carbon nanotubes (CNTs) is highly effective in reducing the superheat incipience and enhancing both the heat flux and heat transfer coefficient. The paper focuses on the comparison of the surfaces, on which pool boiling heat transfer occurs, i.e., on minifins coated with carbon nanotubes (MF+N) with surfaces formed by sintering the woven copper wire mesh to the minifins tips (MF+M) and with plain minifins surface (MF). The experiments were carried out for two boiling fluids: water and ethyl alcohol. The purpose of the presented study was to find out which of those tested surfaces and fluids could be the best alternative for use in the cooling of electronic devices and which surfaces could be used as thermosyphon or heat pipe evaporator.

Słowa kluczowe

pool boiling carbon nanotube heat transfer coefficient power electronic cooling

Wydawca

Wydawnictwo Instytutu Maszyn Przepływowych PAN

Czasopismo

Transactions of the Institute of Fluid-Flow Machinery

Rocznik

2015

Tom

nr 128

Strony

59--72

Opis fizyczny

Bibliogr. 17 poz., rys., tab.

Twórcy

autor

Strąk E.

enadstawna@tu.kielce.pl

Kielce University of Technology, Aleja Tysiąclecia Państwa Polskiego 7, 25-314 Kielce, Poland

autor

Pastuszko R.

Kielce University of Technology, Aleja Tysiąclecia Państwa Polskiego 7, 25-314 Kielce, Poland

autor

Kłosowiak R.

Kielce University of Technology, Aleja Tysiąclecia Państwa Polskiego 7, 25-314 Kielce, Poland

autor

Urbaniak R.

Kielce University of Technology, Aleja Tysiąclecia Państwa Polskiego 7, 25-314 Kielce, Poland

Bibliografia

[1] Pastuszko R., Nadstawna E.: Pool boiling heat transfer on surfaces with plain minifins and minifins with perforated foil. MATEC Web of Conf. 16(2014), 01008-p.1–01008-p.6.
[2] Piasecka M.: Heat transfer research on enhanced heating surfaces in flow boiling in a minichannel and pool boiling. Ann. Nucl. Energ. 73(2014), 282–293.
[3] Pastuszko R., Piasecka M., Nadstawna E.: Pool boiling and flow boiling on surfaces with microcavities. In: Proc. 15th Int. Conf. on Heat Transfer and Renewable Sources of Energy 2014. College Publisher of West Pomeranian University of Technology, 2014, 259–266.
[4] McHale J., Garimella S.: Bubble nucleation characteristics in pool boiling of a wetting liquid on smooth and rough surfaces. Int. J. Heat Mass Tran. 36(2010), 249–260.
[5] Thome J.: Enhanced Boiling Heat Transfer. Hemisphere Publishing, New York 1990.
[6] Biercuk M., Llaguno M., Radosavljevic M., Hyun J., Johnson A.: Carbon nanotube composites for thermal management. Appl. Phys. Lett. 80(2002), 2767–2769.
[7] Eastman J., Choi S., Li S., Thompson L., Lee S.: Enhanced thermal conductivity through the development of nano-fluids.. Proc. Symp. on Nanophase and Nanocomposite Materials II, Materials Research Society 457, 1997, 3–11.
[8] Wang X., Mujumdar A.: Heat transfer characteristics of nanofluids: A review. Int. J. Therm. Sci. 46(2007), 1–19.
[9] Park K. , Jung D., Shim S.: Nucleate boiling heat transfer in aqueous solutions with carbon nanotubes up to critical heat fluxes. Int. J. Multiphas. Flow 35(2009), 525–532.
[10] Mo Z., Morjan R., Anderson J., Campbell E., Liu J.: Nanotube microcooler for microelectronics applications. In: Proc. Electronic Components and Technology Conf. 2005, 51–54.
[11] Launay S., Fedorov A., Joshi Y., Cao A., Ajayan P.: Hybrid micronanostructured thermal interfaces for pool boiling heat transfer enhancement. Microelectron. J. 37(2006), 1158–1164.
[12] Yao Z., Lu Y., Kandlikar S.: Effects of nanowire height on pool boiling performance of water on silicon chips. Int. J. Therm. Sci. 2011, 2084–2090.
[13] Zhong X., Fan Y., Liu J., Zhang Y., Wang T., Cheng Z: A study of CFD simulation for on-chip cooling with 2D CNT micro-fin array.Proc. HDP 2007, 1–6.
[14] Pastuszko R.: Boiling heat transfer in subsurface tunnels. Kielce University of Technology, monography M33(2012), 37.
[15] Piasecka M.: An application of enhanced heating surface with minirecesses for flow boiling research in minichannels. Heat Mass Transfer 49(2013), 261–271.
[16] Tullius J., Vajtai R., Bayazitoglu Y.: A review of cooling in microchannels. Heat Transfer Eng. 32(2011), 527–541.
[17] Pastuszko R.: Pool boiling on micro-fin array with wire mesh structures. Int. J. Therm. Sci. 49(2011), 2289–2298.

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