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Enhancement of heat transfer at pool boiling on surfaces with silicon oxide nanowires. / Chinnov, E. A.; Shatskiy, E. N.; Khmel, S. Ya et al.

In: Journal of Physics: Conference Series, Vol. 925, No. 1, 012033, 09.11.2017.

Research output: Contribution to journalArticlepeer-review

Harvard

Chinnov, EA, Shatskiy, EN, Khmel, SY, Baranov, EA, Zamchiy, AO, Semionov, VV & Kabov, OA 2017, 'Enhancement of heat transfer at pool boiling on surfaces with silicon oxide nanowires', Journal of Physics: Conference Series, vol. 925, no. 1, 012033. https://doi.org/10.1088/1742-6596/925/1/012033

APA

Chinnov, E. A., Shatskiy, E. N., Khmel, S. Y., Baranov, E. A., Zamchiy, A. O., Semionov, V. V., & Kabov, O. A. (2017). Enhancement of heat transfer at pool boiling on surfaces with silicon oxide nanowires. Journal of Physics: Conference Series, 925(1), [012033]. https://doi.org/10.1088/1742-6596/925/1/012033

Vancouver

Chinnov EA, Shatskiy EN, Khmel SY, Baranov EA, Zamchiy AO, Semionov VV et al. Enhancement of heat transfer at pool boiling on surfaces with silicon oxide nanowires. Journal of Physics: Conference Series. 2017 Nov 9;925(1):012033. doi: 10.1088/1742-6596/925/1/012033

Author

Chinnov, E. A. ; Shatskiy, E. N. ; Khmel, S. Ya et al. / Enhancement of heat transfer at pool boiling on surfaces with silicon oxide nanowires. In: Journal of Physics: Conference Series. 2017 ; Vol. 925, No. 1.

BibTeX

@article{63e5ed33d0494c43afc0f7b2b10ab6a1,
title = "Enhancement of heat transfer at pool boiling on surfaces with silicon oxide nanowires",
abstract = "The boiling heat transfer on the local heaters with microstructured and nanomodified surfaces was studied. As nanomodified surfaces we used copper ones where the microropes of silicon oxide nanowires were grown. The aging of the nanomodified surface was observed after first series of experiments. It was shown that both finning and nanostructuring of the surface result in increase of heat transfer. The heat flux density of 1400 W/cm2 was reached.",
keywords = "FLOW, GAS",
author = "Chinnov, {E. A.} and Shatskiy, {E. N.} and Khmel, {S. Ya} and Baranov, {E. A.} and Zamchiy, {A. O.} and Semionov, {V. V.} and Kabov, {O. A.}",
note = "Publisher Copyright: {\textcopyright} Published under licence by IOP Publishing Ltd.",
year = "2017",
month = nov,
day = "9",
doi = "10.1088/1742-6596/925/1/012033",
language = "English",
volume = "925",
journal = "Journal of Physics: Conference Series",
issn = "1742-6588",
publisher = "IOP Publishing Ltd.",
number = "1",

}

RIS

TY - JOUR

T1 - Enhancement of heat transfer at pool boiling on surfaces with silicon oxide nanowires

AU - Chinnov, E. A.

AU - Shatskiy, E. N.

AU - Khmel, S. Ya

AU - Baranov, E. A.

AU - Zamchiy, A. O.

AU - Semionov, V. V.

AU - Kabov, O. A.

N1 - Publisher Copyright: © Published under licence by IOP Publishing Ltd.

PY - 2017/11/9

Y1 - 2017/11/9

N2 - The boiling heat transfer on the local heaters with microstructured and nanomodified surfaces was studied. As nanomodified surfaces we used copper ones where the microropes of silicon oxide nanowires were grown. The aging of the nanomodified surface was observed after first series of experiments. It was shown that both finning and nanostructuring of the surface result in increase of heat transfer. The heat flux density of 1400 W/cm2 was reached.

AB - The boiling heat transfer on the local heaters with microstructured and nanomodified surfaces was studied. As nanomodified surfaces we used copper ones where the microropes of silicon oxide nanowires were grown. The aging of the nanomodified surface was observed after first series of experiments. It was shown that both finning and nanostructuring of the surface result in increase of heat transfer. The heat flux density of 1400 W/cm2 was reached.

KW - FLOW

KW - GAS

UR - http://www.scopus.com/inward/record.url?scp=85036479928&partnerID=8YFLogxK

U2 - 10.1088/1742-6596/925/1/012033

DO - 10.1088/1742-6596/925/1/012033

M3 - Article

AN - SCOPUS:85036479928

VL - 925

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

SN - 1742-6588

IS - 1

M1 - 012033

ER -

ID: 9182879