SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3134962018> ?p ?o ?g. }

Showing items 1 to 100 of ±108 with 100 items per page.

W3134962018 endingPage "105235" @default.
W3134962018 startingPage "105235" @default.
W3134962018 abstract "Icing of wind turbine blades seriously affects the efficiency of wind power generation and threatens the safe operation of wind turbines. In order to improve the heat transfer efficiency of wind turbine blade anti-deicing components, a mathematical heat transfer model of graphene oxide (GO) doped reinforced polymer was established based on the thermal resistance law and the equivalent thermal conductivity. The heat transfer characteristic of glass fiber/epoxy resin (GF/EP) reinforced polymer composites modified with GO as heat transfer filler was presented by combining numerical calculation with finite element method. The correctness of the heat transfer mathematical model of GO/GF/EP composites was verified by comparing the numerical and experimental results with the finite element simulation results, which shows the maximum error is 7.11%. With the increasing of the content of GO in GO/GF/EP composites, the heat conduction paths composed of GO are formed in the composites. Thus, from the macroscopic point of view, the overall thermal conductivity of the material is greatly improved by 6.41%. The number of thermal paths in the composites is directly proportional to the content of GO. The increase of thermal conductivity channels promotes the heat transfer capacity of the composites, which making up for the low thermal conductivity of glass fiber and epoxy resin. The results show that the modification of GO can significantly improve the heat transfer performance of GF/EP composites, which can be employed in the anti−/deicing field of the wind turbine blades in the future." @default.
W3134962018 created "2021-03-15" @default.
W3134962018 creator A5012324763 @default.
W3134962018 creator A5050044011 @default.
W3134962018 creator A5053151944 @default.
W3134962018 creator A5060314180 @default.
W3134962018 creator A5091028959 @default.
W3134962018 date "2021-04-01" @default.
W3134962018 modified "2023-10-17" @default.
W3134962018 title "Mathematical modeling of heat transfer in GO-doped reinforce polymer for anti-/deicing of wind turbines" @default.
W3134962018 cites W2004437074 @default.
W3134962018 cites W2010971702 @default.
W3134962018 cites W2014134816 @default.
W3134962018 cites W2021063515 @default.
W3134962018 cites W2024622294 @default.
W3134962018 cites W2029135668 @default.
W3134962018 cites W2063196683 @default.
W3134962018 cites W2080360972 @default.
W3134962018 cites W2082587218 @default.
W3134962018 cites W2127819650 @default.
W3134962018 cites W2287856678 @default.
W3134962018 cites W2322641051 @default.
W3134962018 cites W2397679425 @default.
W3134962018 cites W2514656952 @default.
W3134962018 cites W2519936654 @default.
W3134962018 cites W2549447336 @default.
W3134962018 cites W2554511211 @default.
W3134962018 cites W2576242851 @default.
W3134962018 cites W2600310466 @default.
W3134962018 cites W2612776711 @default.
W3134962018 cites W2613218598 @default.
W3134962018 cites W2725323426 @default.
W3134962018 cites W2744747709 @default.
W3134962018 cites W2752284900 @default.
W3134962018 cites W2759912677 @default.
W3134962018 cites W2767265664 @default.
W3134962018 cites W2782157937 @default.
W3134962018 cites W2795545281 @default.
W3134962018 cites W2899913439 @default.
W3134962018 cites W2921689140 @default.
W3134962018 cites W2997842890 @default.
W3134962018 cites W3012469451 @default.
W3134962018 cites W3016675516 @default.
W3134962018 cites W3023155571 @default.
W3134962018 cites W3036892668 @default.
W3134962018 cites W3105973609 @default.
W3134962018 doi "https://doi.org/10.1016/j.icheatmasstransfer.2021.105235" @default.
W3134962018 hasPublicationYear "2021" @default.
W3134962018 type Work @default.
W3134962018 sameAs 3134962018 @default.
W3134962018 citedByCount "4" @default.
W3134962018 countsByYear W31349620182021 @default.
W3134962018 countsByYear W31349620182022 @default.
W3134962018 countsByYear W31349620182023 @default.
W3134962018 crossrefType "journal-article" @default.
W3134962018 hasAuthorship W3134962018A5012324763 @default.
W3134962018 hasAuthorship W3134962018A5050044011 @default.
W3134962018 hasAuthorship W3134962018A5053151944 @default.
W3134962018 hasAuthorship W3134962018A5060314180 @default.
W3134962018 hasAuthorship W3134962018A5091028959 @default.
W3134962018 hasConcept C121332964 @default.
W3134962018 hasConcept C127413603 @default.
W3134962018 hasConcept C159985019 @default.
W3134962018 hasConcept C166595027 @default.
W3134962018 hasConcept C172100665 @default.
W3134962018 hasConcept C177229083 @default.
W3134962018 hasConcept C192562407 @default.
W3134962018 hasConcept C20381859 @default.
W3134962018 hasConcept C2778449969 @default.
W3134962018 hasConcept C50517652 @default.
W3134962018 hasConcept C57879066 @default.
W3134962018 hasConcept C78519656 @default.
W3134962018 hasConcept C97346530 @default.
W3134962018 hasConceptScore W3134962018C121332964 @default.
W3134962018 hasConceptScore W3134962018C127413603 @default.
W3134962018 hasConceptScore W3134962018C159985019 @default.
W3134962018 hasConceptScore W3134962018C166595027 @default.
W3134962018 hasConceptScore W3134962018C172100665 @default.
W3134962018 hasConceptScore W3134962018C177229083 @default.
W3134962018 hasConceptScore W3134962018C192562407 @default.
W3134962018 hasConceptScore W3134962018C20381859 @default.
W3134962018 hasConceptScore W3134962018C2778449969 @default.
W3134962018 hasConceptScore W3134962018C50517652 @default.
W3134962018 hasConceptScore W3134962018C57879066 @default.
W3134962018 hasConceptScore W3134962018C78519656 @default.
W3134962018 hasConceptScore W3134962018C97346530 @default.
W3134962018 hasFunder F4320324174 @default.
W3134962018 hasFunder F4320333622 @default.
W3134962018 hasLocation W31349620181 @default.
W3134962018 hasOpenAccess W3134962018 @default.
W3134962018 hasPrimaryLocation W31349620181 @default.
W3134962018 hasRelatedWork W1972530813 @default.
W3134962018 hasRelatedWork W1995598804 @default.
W3134962018 hasRelatedWork W2029432124 @default.
W3134962018 hasRelatedWork W2315775211 @default.
W3134962018 hasRelatedWork W2361514428 @default.
W3134962018 hasRelatedWork W2368553516 @default.
W3134962018 hasRelatedWork W2377941652 @default.