SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2440261411> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W2440261411 endingPage "1199" @default.
W2440261411 startingPage "1190" @default.
W2440261411 abstract "Nanofluids as a new coolant have overcome the limitations in thermal performance faced by conventional fluids such as water, ethylene glycol (EG) and oil based fluids. The objective of the study is to investigate the properties and heat transfer performance of TiO2 nanofluids in water-EG mixture at different operating temperatures. The study is carried out through experimental determination on heat transfer coefficient of TiO2 nanofluids in a circular tube under turbulent flow. The thermal conductivity and viscosity measurements were undertaken for temperature in the range of 30–80 °C. The maximum enhancement of thermal conductivity achieved was 15.4% at 1.5 vol% concentration and temperature of 60 °C. The relative viscosities fluctuate at a range of 4.6–33.3% with variation of temperature. The Nusselt number showed an enhancement up to 22.8% and 28.9% for temperatures of 50 °C and 70 °C, respectively. The friction factor for the nanofluids is slightly increased with concentration. Thermal conductivity, viscosity and heat transfer coefficient of TiO2 nanofluid are strongly influenced by working temperature and concentration." @default.
W2440261411 created "2016-06-24" @default.
W2440261411 creator A5011705703 @default.
W2440261411 creator A5017789465 @default.
W2440261411 creator A5041408531 @default.
W2440261411 creator A5044396302 @default.
W2440261411 creator A5048874388 @default.
W2440261411 date "2016-08-01" @default.
W2440261411 modified "2023-10-18" @default.
W2440261411 title "Effects of working temperature on thermo-physical properties and forced convection heat transfer of TiO 2 nanofluids in water – Ethylene glycol mixture" @default.
W2440261411 cites W1907147761 @default.
W2440261411 cites W1970396581 @default.
W2440261411 cites W1973050719 @default.
W2440261411 cites W1974014039 @default.
W2440261411 cites W1976547987 @default.
W2440261411 cites W1980094141 @default.
W2440261411 cites W1984761865 @default.
W2440261411 cites W1985877704 @default.
W2440261411 cites W1989950784 @default.
W2440261411 cites W1992644507 @default.
W2440261411 cites W1997712789 @default.
W2440261411 cites W2009336601 @default.
W2440261411 cites W2009556137 @default.
W2440261411 cites W2010114298 @default.
W2440261411 cites W2011687858 @default.
W2440261411 cites W2012425031 @default.
W2440261411 cites W2020646500 @default.
W2440261411 cites W2022059661 @default.
W2440261411 cites W2042354134 @default.
W2440261411 cites W2044656231 @default.
W2440261411 cites W2047714158 @default.
W2440261411 cites W2047718404 @default.
W2440261411 cites W2047791995 @default.
W2440261411 cites W2054133775 @default.
W2440261411 cites W2059817461 @default.
W2440261411 cites W2060252302 @default.
W2440261411 cites W2063184809 @default.
W2440261411 cites W2069952886 @default.
W2440261411 cites W2070580517 @default.
W2440261411 cites W2071540407 @default.
W2440261411 cites W2072714145 @default.
W2440261411 cites W2072777092 @default.
W2440261411 cites W2076824387 @default.
W2440261411 cites W2079743760 @default.
W2440261411 cites W2081367825 @default.
W2440261411 cites W2082466851 @default.
W2440261411 cites W2083214933 @default.
W2440261411 cites W2087001254 @default.
W2440261411 cites W2087622678 @default.
W2440261411 cites W2087757322 @default.
W2440261411 cites W2091479285 @default.
W2440261411 cites W2092633521 @default.
W2440261411 cites W2092763208 @default.
W2440261411 cites W2133576861 @default.
W2440261411 cites W2145637811 @default.
W2440261411 cites W2496051493 @default.
W2440261411 cites W4241450327 @default.
W2440261411 cites W4300809917 @default.
W2440261411 doi "https://doi.org/10.1016/j.applthermaleng.2016.06.106" @default.
W2440261411 hasPublicationYear "2016" @default.
W2440261411 type Work @default.
W2440261411 sameAs 2440261411 @default.
W2440261411 citedByCount "91" @default.
W2440261411 countsByYear W24402614112016 @default.
W2440261411 countsByYear W24402614112017 @default.
W2440261411 countsByYear W24402614112018 @default.
W2440261411 countsByYear W24402614112019 @default.
W2440261411 countsByYear W24402614112020 @default.
W2440261411 countsByYear W24402614112021 @default.
W2440261411 countsByYear W24402614112022 @default.
W2440261411 countsByYear W24402614112023 @default.
W2440261411 crossrefType "journal-article" @default.
W2440261411 hasAuthorship W2440261411A5011705703 @default.
W2440261411 hasAuthorship W2440261411A5017789465 @default.
W2440261411 hasAuthorship W2440261411A5041408531 @default.
W2440261411 hasAuthorship W2440261411A5044396302 @default.
W2440261411 hasAuthorship W2440261411A5048874388 @default.
W2440261411 hasConcept C121332964 @default.
W2440261411 hasConcept C127172972 @default.
W2440261411 hasConcept C127413603 @default.
W2440261411 hasConcept C130230704 @default.
W2440261411 hasConcept C159985019 @default.
W2440261411 hasConcept C182748727 @default.
W2440261411 hasConcept C192562407 @default.
W2440261411 hasConcept C196558001 @default.
W2440261411 hasConcept C21946209 @default.
W2440261411 hasConcept C2777516009 @default.
W2440261411 hasConcept C2777777821 @default.
W2440261411 hasConcept C29700514 @default.
W2440261411 hasConcept C39353612 @default.
W2440261411 hasConcept C42360764 @default.
W2440261411 hasConcept C50517652 @default.
W2440261411 hasConcept C91914117 @default.
W2440261411 hasConcept C97346530 @default.
W2440261411 hasConcept C97355855 @default.
W2440261411 hasConceptScore W2440261411C121332964 @default.
W2440261411 hasConceptScore W2440261411C127172972 @default.
W2440261411 hasConceptScore W2440261411C127413603 @default.