SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4367309962> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W4367309962 endingPage "101136" @default.
W4367309962 startingPage "101136" @default.
W4367309962 abstract "This ongoing study is carried out to analyze the thermal performance with sensitivity study of a mixed convective hexagonal heat exchanger containing TiO2–H2O nanofluid. Magnetic force is regarded to be horizontal while all surrounding walls are adiabatic. The finite element method is used to simulate the regulatory equations. For the first time, response surface methodology is used to analyze the sensitivity of independent factors on a hexagonal heat exchanger. The findings are depicted for four parameters, Reynolds number (10 ≤ Re ≤ 200), Richardson number (0.01 ≤ Ri ≤ 10), Hartmann number (0 ≤ Ha ≤ 100), and nanoparticle volume fraction (0 ≤ φ ≤ 0.1) against velocity distribution, average Nusselt number (Nuav), streamlines, isotherm lines, and heatlines. The results indicate that the growing value of Re and φ strengthen the thermal performance of nanofluid whereas increasing Ha causes it to decrease. Moreover, φ and Re have positive sensitivity to the Nuav while Ha has negative sensitivity. When Ha is maintained at 0, the optimal value of Nuav reaches when Re = 200 and φ = 0.1. The use of TiO2–H2O nanofluid improves the water's heat transmission ability to 17.69%. Finally, the results of this study may offer advice for creating an effective mixed convective heat exchanger." @default.
W4367309962 created "2023-04-29" @default.
W4367309962 creator A5025563341 @default.
W4367309962 creator A5029686915 @default.
W4367309962 creator A5030634834 @default.
W4367309962 creator A5047188125 @default.
W4367309962 creator A5069657328 @default.
W4367309962 creator A5074987570 @default.
W4367309962 creator A5078405125 @default.
W4367309962 date "2023-06-01" @default.
W4367309962 modified "2023-10-01" @default.
W4367309962 title "Numerical investigation with sensitivity study of MHD mixed convective hexagonal heat exchanger using TiO2–H2O nanofluid" @default.
W4367309962 cites W1992194873 @default.
W4367309962 cites W2002948299 @default.
W4367309962 cites W2017166230 @default.
W4367309962 cites W2024931435 @default.
W4367309962 cites W2040419367 @default.
W4367309962 cites W2061375531 @default.
W4367309962 cites W2237440835 @default.
W4367309962 cites W2258000042 @default.
W4367309962 cites W2302106924 @default.
W4367309962 cites W2326680257 @default.
W4367309962 cites W2328139328 @default.
W4367309962 cites W2588330178 @default.
W4367309962 cites W2738796982 @default.
W4367309962 cites W2808309329 @default.
W4367309962 cites W2896348022 @default.
W4367309962 cites W2897790570 @default.
W4367309962 cites W2910331537 @default.
W4367309962 cites W2914037845 @default.
W4367309962 cites W2951385529 @default.
W4367309962 cites W2966760279 @default.
W4367309962 cites W3028817027 @default.
W4367309962 cites W3044662016 @default.
W4367309962 cites W3044957620 @default.
W4367309962 cites W3093180091 @default.
W4367309962 cites W3096933918 @default.
W4367309962 cites W3098553977 @default.
W4367309962 cites W3105750448 @default.
W4367309962 cites W3115523803 @default.
W4367309962 cites W3172170687 @default.
W4367309962 cites W3183548999 @default.
W4367309962 cites W3183749442 @default.
W4367309962 cites W3189830274 @default.
W4367309962 cites W3191195841 @default.
W4367309962 cites W3196870429 @default.
W4367309962 cites W3206383006 @default.
W4367309962 cites W4213205888 @default.
W4367309962 cites W4214610483 @default.
W4367309962 cites W4221066049 @default.
W4367309962 cites W4281401767 @default.
W4367309962 cites W4281744134 @default.
W4367309962 cites W4283765545 @default.
W4367309962 cites W4285403503 @default.
W4367309962 cites W4285602480 @default.
W4367309962 cites W4292481276 @default.
W4367309962 cites W4296894715 @default.
W4367309962 cites W4307770927 @default.
W4367309962 cites W4317605874 @default.
W4367309962 cites W4319066157 @default.
W4367309962 cites W4320515737 @default.
W4367309962 cites W4322625672 @default.
W4367309962 cites W4322730539 @default.
W4367309962 cites W4327693002 @default.
W4367309962 cites W4362510254 @default.
W4367309962 doi "https://doi.org/10.1016/j.rineng.2023.101136" @default.
W4367309962 hasPublicationYear "2023" @default.
W4367309962 type Work @default.
W4367309962 citedByCount "5" @default.
W4367309962 countsByYear W43673099622023 @default.
W4367309962 crossrefType "journal-article" @default.
W4367309962 hasAuthorship W4367309962A5025563341 @default.
W4367309962 hasAuthorship W4367309962A5029686915 @default.
W4367309962 hasAuthorship W4367309962A5030634834 @default.
W4367309962 hasAuthorship W4367309962A5047188125 @default.
W4367309962 hasAuthorship W4367309962A5069657328 @default.
W4367309962 hasAuthorship W4367309962A5074987570 @default.
W4367309962 hasAuthorship W4367309962A5078405125 @default.
W4367309962 hasBestOaLocation W43673099621 @default.
W4367309962 hasConcept C107706546 @default.
W4367309962 hasConcept C10899652 @default.
W4367309962 hasConcept C121332964 @default.
W4367309962 hasConcept C127413603 @default.
W4367309962 hasConcept C130230704 @default.
W4367309962 hasConcept C182748727 @default.
W4367309962 hasConcept C189234753 @default.
W4367309962 hasConcept C192562407 @default.
W4367309962 hasConcept C194896862 @default.
W4367309962 hasConcept C196558001 @default.
W4367309962 hasConcept C204530211 @default.
W4367309962 hasConcept C21200559 @default.
W4367309962 hasConcept C21946209 @default.
W4367309962 hasConcept C24326235 @default.
W4367309962 hasConcept C538625479 @default.
W4367309962 hasConcept C54791560 @default.
W4367309962 hasConcept C57879066 @default.
W4367309962 hasConcept C60439489 @default.
W4367309962 hasConcept C97355855 @default.