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Journal of Nanoscience and Nanotechnology

Volumn 7, Issue 6, 2007, Pages 2161-2166

A study on the effects of temperature and volume fraction on thermal conductivity of copper oxide nanofluid

(5) Jwo, Ching Song a Change, Ho a Teng, Tun Ping a Kao, Mu Jnug a Guo, Yu Ting a

a NATIONAL TAIPEI UNIVERSITY OF TECHNOLOGY (Taiwan)

Author keywords

CuO nanofluid; Thermal conductivity; Volume fraction

Indexed keywords

(I ,J) CONDITIONS; (O-SEC.-BUTYLDITHIOCARBONATIO-S ,S') COPPER; (PL) PROPERTIES; APPLIED (CO); CUO NANO-PARTICLES; EFFECTS OF TEMPERATURE; EXPERIMENTAL RESULTS; HEAT EXCHANGING; HIGH TEMPERATURE (HT); LONG TIME; MEAN PARTICLE SIZE; NANO FLUIDS; NEEDLE LIKE; SUBMERGED ARC; SYNTHESIS (OF CHIRAL IONIC LIQUIDS);

COPPER; COPPER OXIDES; DEIONIZED WATER; NANOFLUIDICS; OPTICAL DESIGN; PHOTOACOUSTIC EFFECT; RADIATION; TEMPERATURE; THERMAL CONDUCTIVITY; THERMAL EFFECTS; THERMAL INSULATING MATERIALS; THERMOANALYSIS; THERMODYNAMIC PROPERTIES; THERMOELECTRICITY; TITRATION;

VOLUME FRACTION;

COPPER; CUPRIC OXIDE; NANOMATERIAL; UNCLASSIFIED DRUG;

ARTICLE; CHEMICAL MODEL; CHEMICAL STRUCTURE; CHEMISTRY; COMPUTER SIMULATION; CONFORMATION; CRYSTALLIZATION; ENERGY TRANSFER; MACROMOLECULE; MATERIALS TESTING; METHODOLOGY; MICROFLUIDICS; NANOTECHNOLOGY; PARTICLE SIZE; SURFACE PROPERTY; TEMPERATURE; THERMAL CONDUCTIVITY; ULTRASTRUCTURE;

COMPUTER SIMULATION; COPPER; CRYSTALLIZATION; ENERGY TRANSFER; MACROMOLECULAR SUBSTANCES; MATERIALS TESTING; MICROFLUIDICS; MODELS, CHEMICAL; MODELS, MOLECULAR; MOLECULAR CONFORMATION; NANOSTRUCTURES; NANOTECHNOLOGY; PARTICLE SIZE; SURFACE PROPERTIES; TEMPERATURE; THERMAL CONDUCTIVITY;

EID: 34548381230 PISSN: 15334880 EISSN: None Source Type: Journal
DOI: 10.1166/jnn.2007.787 Document Type: Conference Paper

Times cited : (18)

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