Detail publikace

Spray cooling by solid jet nozzles using alumina/water nanofluids

Originální název

Spray cooling by solid jet nozzles using alumina/water nanofluids

Anglický název

Spray cooling by solid jet nozzles using alumina/water nanofluids

Jazyk

en

Originální abstrakt

The hot steel plate with embedded thermocouple was sprayed by nanofluid Al/water. The inverse heat transfer technique was then applied to convert the measured temperatures into the heat transfer coefficient (HTC) for different nanoparticle fractions and different nanofluid flow rates. The results showed 45% decrease of HTC with nanoparticle fraction increasing from 0 to 16.45%. The HTC corelations with the nanoparticle fraction and spray cooling conditions were also reported.

Anglický abstrakt

The hot steel plate with embedded thermocouple was sprayed by nanofluid Al/water. The inverse heat transfer technique was then applied to convert the measured temperatures into the heat transfer coefficient (HTC) for different nanoparticle fractions and different nanofluid flow rates. The results showed 45% decrease of HTC with nanoparticle fraction increasing from 0 to 16.45%. The HTC corelations with the nanoparticle fraction and spray cooling conditions were also reported.

BibTex


@article{BUT94598,
  author="Hana {Bellerová} and Ampere An-Pei {Tseng} and Michal {Pohanka} and Miroslav {Raudenský}",
  title="Spray cooling by solid jet nozzles using alumina/water nanofluids",
  annote="The hot steel plate with embedded thermocouple was sprayed by nanofluid Al/water. The inverse heat transfer technique was then applied to convert the measured temperatures into the heat transfer coefficient (HTC) for different nanoparticle fractions and different nanofluid flow rates. The results showed 45% decrease of HTC with nanoparticle fraction increasing from 0 to 16.45%. The HTC corelations with the nanoparticle fraction and spray cooling conditions were also reported.",
  address="Elsevier",
  chapter="94598",
  doi="10.1016/j.ijthermalsci.2011.10.017",
  institution="Elsevier",
  number="12",
  volume="62",
  year="2012",
  month="december",
  pages="127--137",
  publisher="Elsevier",
  type="journal article in Web of Science"
}