SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3210363216> ?p ?o ?g. }

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

W3210363216 endingPage "10229" @default.
W3210363216 startingPage "10229" @default.
W3210363216 abstract "This study presents an experimental comparison of three characterization methods for phase change materials (PCM). Two methods were carried out with a calorimeter, the first with direct scanning (DSC) and the second with step scanning (STEP). The third method is a fluxmetric (FM) characterization performed using a fluxmeter bench. For the three methods, paraffin RT58 and polymer PEG6000, two PCM suitable for domestic hot water (DHW) storage, were characterized. For each PCM, no significant difference was observed on the latent heat and the total energy exchanged between the three characterization methods. However, DSC and STEP methods did not enable the accurate characterization of the supercooling process observed with the FM method for polymer PEG6000. For PEG6000, the shape of the enthalpy curve of melting also differed between the experiments on the calorimeter—DSC and STEP—methods, and the FM method. Concerning the PCM comparison, RT58 and PEG6000 appeared to have an equivalent energy density but, as the mass density of PEG6000 is greater, more energy is stored inside the same volume for PEG6000. However, as PEG6000 experienced supercooling, the discharging temperature was lower than for RT58 and the material is therefore less adapted to DHW storage operating with partial phase change cycles where the PCM temperature does not decrease below 52 °C." @default.
W3210363216 created "2021-11-08" @default.
W3210363216 creator A5017499317 @default.
W3210363216 creator A5045775041 @default.
W3210363216 creator A5051813870 @default.
W3210363216 creator A5058521070 @default.
W3210363216 creator A5082988574 @default.
W3210363216 creator A5083624544 @default.
W3210363216 date "2021-11-01" @default.
W3210363216 modified "2023-10-02" @default.
W3210363216 title "Experimental Comparison of Three Characterization Methods for Two Phase Change Materials Suitable for Domestic Hot Water Storage" @default.
W3210363216 cites W1974885381 @default.
W3210363216 cites W1983253299 @default.
W3210363216 cites W1984462708 @default.
W3210363216 cites W1996051414 @default.
W3210363216 cites W2004885065 @default.
W3210363216 cites W2008546733 @default.
W3210363216 cites W2015283183 @default.
W3210363216 cites W2018283795 @default.
W3210363216 cites W2020672924 @default.
W3210363216 cites W2023953613 @default.
W3210363216 cites W2033237137 @default.
W3210363216 cites W2039177571 @default.
W3210363216 cites W2049191740 @default.
W3210363216 cites W2061850128 @default.
W3210363216 cites W2073105732 @default.
W3210363216 cites W2087285431 @default.
W3210363216 cites W2094733539 @default.
W3210363216 cites W2102456870 @default.
W3210363216 cites W2103603106 @default.
W3210363216 cites W2141933661 @default.
W3210363216 cites W2196502279 @default.
W3210363216 cites W2288890317 @default.
W3210363216 cites W2328772243 @default.
W3210363216 cites W2340202577 @default.
W3210363216 cites W2518011918 @default.
W3210363216 cites W2560355083 @default.
W3210363216 cites W2564572201 @default.
W3210363216 cites W257800931 @default.
W3210363216 cites W2622682201 @default.
W3210363216 cites W270289162 @default.
W3210363216 cites W2731240179 @default.
W3210363216 cites W2740952206 @default.
W3210363216 cites W2744789557 @default.
W3210363216 cites W2799696970 @default.
W3210363216 cites W2806811985 @default.
W3210363216 cites W2888105445 @default.
W3210363216 cites W2895295357 @default.
W3210363216 cites W2897642037 @default.
W3210363216 cites W2902527244 @default.
W3210363216 cites W2913793811 @default.
W3210363216 cites W2914588998 @default.
W3210363216 cites W2980821932 @default.
W3210363216 cites W2994611429 @default.
W3210363216 cites W3025641378 @default.
W3210363216 cites W3042370163 @default.
W3210363216 cites W3047772368 @default.
W3210363216 cites W3084366577 @default.
W3210363216 cites W3134079102 @default.
W3210363216 cites W3135456816 @default.
W3210363216 cites W3135721234 @default.
W3210363216 doi "https://doi.org/10.3390/app112110229" @default.
W3210363216 hasPublicationYear "2021" @default.
W3210363216 type Work @default.
W3210363216 sameAs 3210363216 @default.
W3210363216 citedByCount "2" @default.
W3210363216 countsByYear W32103632162021 @default.
W3210363216 countsByYear W32103632162023 @default.
W3210363216 crossrefType "journal-article" @default.
W3210363216 hasAuthorship W3210363216A5017499317 @default.
W3210363216 hasAuthorship W3210363216A5045775041 @default.
W3210363216 hasAuthorship W3210363216A5051813870 @default.
W3210363216 hasAuthorship W3210363216A5058521070 @default.
W3210363216 hasAuthorship W3210363216A5082988574 @default.
W3210363216 hasAuthorship W3210363216A5083624544 @default.
W3210363216 hasBestOaLocation W32103632161 @default.
W3210363216 hasConcept C112964491 @default.
W3210363216 hasConcept C119599485 @default.
W3210363216 hasConcept C121332964 @default.
W3210363216 hasConcept C127413603 @default.
W3210363216 hasConcept C133256868 @default.
W3210363216 hasConcept C159985019 @default.
W3210363216 hasConcept C171250308 @default.
W3210363216 hasConcept C18073261 @default.
W3210363216 hasConcept C183287310 @default.
W3210363216 hasConcept C192562407 @default.
W3210363216 hasConcept C2778119658 @default.
W3210363216 hasConcept C2780841128 @default.
W3210363216 hasConcept C2985276288 @default.
W3210363216 hasConcept C3288061 @default.
W3210363216 hasConcept C39519442 @default.
W3210363216 hasConcept C58024561 @default.
W3210363216 hasConcept C94915269 @default.
W3210363216 hasConcept C97355855 @default.
W3210363216 hasConceptScore W3210363216C112964491 @default.
W3210363216 hasConceptScore W3210363216C119599485 @default.
W3210363216 hasConceptScore W3210363216C121332964 @default.
W3210363216 hasConceptScore W3210363216C127413603 @default.