FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4309079825> ?p ?o ?g. }

• W4309079825 endingPage "106074" @default.
• W4309079825 startingPage "106074" @default.
• W4309079825 abstract "Changing technologies have led to electronic components being smaller in size with higher output powers. In this study, an experimental investigation is performed on a PCM-assisted heat pipe (HP) with free and forced convection for cooling portable computers. In order to assess the applicability of the proposed design, three different configurations are studied. In the Config. 1 (Configuration 1), there is only a fan as the active cooling method; for the Config. 2, a phase change material (PCM) container is placed into the fins without using any fan; in the Config. 3, the PCM container is located close to the CPU combined with a fan cooling the far end of the heat pipe. Furthermore, the effect of the PCM melting point on the cooling is investigated using two different types of PCMs. Variations in input heat fluxes and fan voltages (fan speed) are effective parameters included in this study. The time it takes to reach critical temperature (CT) decreases with increasing input heat flux. At an input heat flux of 15 W by the addition of forced convection, the maximum temperature does not reach the CT, and by increasing the fan voltage, the steady-state temperature of the central processing unit (CPU) decreases. However, even by using forced convection, the CPU will reach CT at maximum input heat flux (45 W). PCM with a lower MP appears to optimize cooling and helps to reduce the most thermal stresses. The most important point in using PCM with forced convection is the longer time required to reach the steady-state temperature. Furthermore, image processing is performed using the function 2D CV filter in Open-CV to estimate the liquid fraction. Image processing demonstrates that at 15 W in the Config. 2, at the end of 58 min, 34.5 % of the total PCM is melted. • Experimental study on active/passive thermal management of a CPU is performed. • The performance of two types of PCM with different melting points is investigated. • Better cooling performance can be achieved using a PCM with a lower melting point. • Using PCM in thermal management is justified for heat fluxes of less than 15 W. • In higher input heat fluxes, PCM acts as an insulator and causes the CPU to overheat." @default.
• W4309079825 created "2022-11-21" @default.
• W4309079825 creator A5005187428 @default.
• W4309079825 creator A5025891855 @default.
• W4309079825 creator A5042358774 @default.
• W4309079825 creator A5046870730 @default.
• W4309079825 creator A5064526820 @default.
• W4309079825 creator A5088785565 @default.
• W4309079825 date "2022-12-01" @default.
• W4309079825 modified "2023-10-16" @default.
• W4309079825 title "Cooling enhancement of portable computers processor by a heat pipe assisted with phase change materials" @default.
• W4309079825 cites W1510020197 @default.
• W4309079825 cites W1993778776 @default.
• W4309079825 cites W2013468772 @default.
• W4309079825 cites W2068685162 @default.
• W4309079825 cites W2084649412 @default.
• W4309079825 cites W2093783731 @default.
• W4309079825 cites W2121837178 @default.
• W4309079825 cites W2331047628 @default.
• W4309079825 cites W2523432164 @default.
• W4309079825 cites W2747595622 @default.
• W4309079825 cites W2749413883 @default.
• W4309079825 cites W2796685963 @default.
• W4309079825 cites W2888737274 @default.
• W4309079825 cites W2893378534 @default.
• W4309079825 cites W2898914006 @default.
• W4309079825 cites W2933082763 @default.
• W4309079825 cites W2963312636 @default.
• W4309079825 cites W2967135629 @default.
• W4309079825 cites W2972597854 @default.
• W4309079825 cites W2978357748 @default.
• W4309079825 cites W2980244815 @default.
• W4309079825 cites W2998573018 @default.
• W4309079825 cites W3003075903 @default.
• W4309079825 cites W3033812181 @default.
• W4309079825 cites W3042030362 @default.
• W4309079825 cites W3049395722 @default.
• W4309079825 cites W3083427461 @default.
• W4309079825 cites W3147224396 @default.
• W4309079825 cites W3177472060 @default.
• W4309079825 cites W3186092942 @default.
• W4309079825 cites W4281571694 @default.
• W4309079825 cites W4281833871 @default.
• W4309079825 doi "https://doi.org/10.1016/j.est.2022.106074" @default.
• W4309079825 hasPublicationYear "2022" @default.
• W4309079825 type Work @default.
• W4309079825 citedByCount "1" @default.
• W4309079825 countsByYear W43090798252023 @default.
• W4309079825 crossrefType "journal-article" @default.
• W4309079825 hasAuthorship W4309079825A5005187428 @default.
• W4309079825 hasAuthorship W4309079825A5025891855 @default.
• W4309079825 hasAuthorship W4309079825A5042358774 @default.
• W4309079825 hasAuthorship W4309079825A5046870730 @default.
• W4309079825 hasAuthorship W4309079825A5064526820 @default.
• W4309079825 hasAuthorship W4309079825A5088785565 @default.
• W4309079825 hasConcept C11026015 @default.
• W4309079825 hasConcept C114834414 @default.
• W4309079825 hasConcept C116915560 @default.
• W4309079825 hasConcept C127413603 @default.
• W4309079825 hasConcept C133256868 @default.
• W4309079825 hasConcept C192562407 @default.
• W4309079825 hasConcept C2778119658 @default.
• W4309079825 hasConcept C41008148 @default.
• W4309079825 hasConcept C61696701 @default.
• W4309079825 hasConcept C78519656 @default.
• W4309079825 hasConceptScore W4309079825C11026015 @default.
• W4309079825 hasConceptScore W4309079825C114834414 @default.
• W4309079825 hasConceptScore W4309079825C116915560 @default.
• W4309079825 hasConceptScore W4309079825C127413603 @default.
• W4309079825 hasConceptScore W4309079825C133256868 @default.
• W4309079825 hasConceptScore W4309079825C192562407 @default.
• W4309079825 hasConceptScore W4309079825C2778119658 @default.
• W4309079825 hasConceptScore W4309079825C41008148 @default.
• W4309079825 hasConceptScore W4309079825C61696701 @default.
• W4309079825 hasConceptScore W4309079825C78519656 @default.
• W4309079825 hasLocation W43090798251 @default.
• W4309079825 hasOpenAccess W4309079825 @default.
• W4309079825 hasPrimaryLocation W43090798251 @default.
• W4309079825 hasRelatedWork W2015699921 @default.
• W4309079825 hasRelatedWork W2050564761 @default.
• W4309079825 hasRelatedWork W2059216897 @default.
• W4309079825 hasRelatedWork W2349984611 @default.
• W4309079825 hasRelatedWork W2350367640 @default.
• W4309079825 hasRelatedWork W2374140058 @default.
• W4309079825 hasRelatedWork W2614156385 @default.
• W4309079825 hasRelatedWork W2625348916 @default.
• W4309079825 hasRelatedWork W3094531218 @default.
• W4309079825 hasRelatedWork W4253477836 @default.
• W4309079825 hasVolume "56" @default.
• W4309079825 isParatext "false" @default.
• W4309079825 isRetracted "false" @default.
• W4309079825 workType "article" @default.