SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308209739> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W4308209739 endingPage "2291" @default.
W4308209739 startingPage "2291" @default.
W4308209739 abstract "Considering the importance of environmental protection and renewable energy resources, particularly solar energy, the present study investigates the temperature control of a solar panel using a nanofluid (NFD) flow with eco-friendly nanoparticles (NPs) and a phase change material (PCM). The PCM was used under the solar panel, and the NFD flowed through pipes within the PCM. A number of straight fins (three fins) were exploited on the pipes, and the output flow temperature, heat transfer (HTR) coefficient, and melted PCM volume fraction were measured for different pipe diameters (D_Pipe) from 4 mm to 8 mm at various time points (from 0 to 100 min). Additionally, with the use of artificial intelligence and machine learning, the best conditions for obtaining the lowest panel temperature and the highest output NFD temperature at the lowest pressure drop have been determined. While the porosity approach was used to model the PCM melt front, a two-phase mixture was used to simulate NFD flow. It was discovered that the solar panel temperature and output temperature both increased considerably between t = 0 and t = 10 min before beginning to rise at varying rates, depending on the D_Pipe. The HTR coefficient increased over time, showing similar behavior to the panel temperature. The entire PCM melted within a short time for D_Pipes of 4 and 6 mm, while a large fraction of the PCM remained un-melted for a long time for a D_Pipe of 8 mm. An increase in D_Pipe, particularly from 4 to 6 mm, reduced the maximum and average panel temperatures, leading to a lower output flow temperature. Furthermore, the increased D_Pipe reduced the HTR coefficient, with the PCM remaining un-melted for a longer time under the panel." @default.
W4308209739 created "2022-11-09" @default.
W4308209739 creator A5006017317 @default.
W4308209739 creator A5030660368 @default.
W4308209739 creator A5042074245 @default.
W4308209739 creator A5046980910 @default.
W4308209739 creator A5048788368 @default.
W4308209739 creator A5070528756 @default.
W4308209739 date "2022-11-04" @default.
W4308209739 modified "2023-10-14" @default.
W4308209739 title "Machine Learning-Based Approach for Modeling the Nanofluid Flow in a Solar Thermal Panel in the Presence of Phase Change Materials" @default.
W4308209739 cites W1972803754 @default.
W4308209739 cites W1998797279 @default.
W4308209739 cites W2021930098 @default.
W4308209739 cites W2022740096 @default.
W4308209739 cites W2058745144 @default.
W4308209739 cites W2239056349 @default.
W4308209739 cites W2301264465 @default.
W4308209739 cites W2411544374 @default.
W4308209739 cites W2465400657 @default.
W4308209739 cites W2621780243 @default.
W4308209739 cites W2625749270 @default.
W4308209739 cites W2651429984 @default.
W4308209739 cites W2738876632 @default.
W4308209739 cites W2739403878 @default.
W4308209739 cites W2759914452 @default.
W4308209739 cites W2792268598 @default.
W4308209739 cites W2792585357 @default.
W4308209739 cites W2811136895 @default.
W4308209739 cites W2888248559 @default.
W4308209739 cites W2890701508 @default.
W4308209739 cites W2966918965 @default.
W4308209739 cites W2990700514 @default.
W4308209739 cites W2999518111 @default.
W4308209739 cites W3000379599 @default.
W4308209739 cites W3005648191 @default.
W4308209739 cites W3010553547 @default.
W4308209739 cites W3046696466 @default.
W4308209739 cites W3095506780 @default.
W4308209739 cites W3152997365 @default.
W4308209739 cites W3154107233 @default.
W4308209739 cites W3169519789 @default.
W4308209739 cites W3186885470 @default.
W4308209739 cites W3190527965 @default.
W4308209739 cites W3190690092 @default.
W4308209739 cites W3193301180 @default.
W4308209739 cites W3195260594 @default.
W4308209739 cites W3204806906 @default.
W4308209739 cites W3206703115 @default.
W4308209739 cites W4200257007 @default.
W4308209739 cites W4210280123 @default.
W4308209739 cites W4210638140 @default.
W4308209739 cites W4211133381 @default.
W4308209739 cites W4213183876 @default.
W4308209739 cites W4220763575 @default.
W4308209739 cites W4223958222 @default.
W4308209739 cites W4229019539 @default.
W4308209739 cites W4280566690 @default.
W4308209739 cites W4280594485 @default.
W4308209739 cites W4284887415 @default.
W4308209739 cites W4284967070 @default.
W4308209739 cites W4286423575 @default.
W4308209739 cites W4292084661 @default.
W4308209739 cites W4292180424 @default.
W4308209739 cites W4293068993 @default.
W4308209739 doi "https://doi.org/10.3390/pr10112291" @default.
W4308209739 hasPublicationYear "2022" @default.
W4308209739 type Work @default.
W4308209739 citedByCount "1" @default.
W4308209739 countsByYear W43082097392023 @default.
W4308209739 crossrefType "journal-article" @default.
W4308209739 hasAuthorship W4308209739A5006017317 @default.
W4308209739 hasAuthorship W4308209739A5030660368 @default.
W4308209739 hasAuthorship W4308209739A5042074245 @default.
W4308209739 hasAuthorship W4308209739A5046980910 @default.
W4308209739 hasAuthorship W4308209739A5048788368 @default.
W4308209739 hasAuthorship W4308209739A5070528756 @default.
W4308209739 hasBestOaLocation W43082097391 @default.
W4308209739 hasConcept C114088122 @default.
W4308209739 hasConcept C121332964 @default.
W4308209739 hasConcept C127413603 @default.
W4308209739 hasConcept C155672457 @default.
W4308209739 hasConcept C159985019 @default.
W4308209739 hasConcept C171250308 @default.
W4308209739 hasConcept C192562407 @default.
W4308209739 hasConcept C204530211 @default.
W4308209739 hasConcept C21946209 @default.
W4308209739 hasConcept C2778119658 @default.
W4308209739 hasConcept C37728375 @default.
W4308209739 hasConcept C50517652 @default.
W4308209739 hasConcept C57879066 @default.
W4308209739 hasConcept C78519656 @default.
W4308209739 hasConcept C97355855 @default.
W4308209739 hasConceptScore W4308209739C114088122 @default.
W4308209739 hasConceptScore W4308209739C121332964 @default.
W4308209739 hasConceptScore W4308209739C127413603 @default.
W4308209739 hasConceptScore W4308209739C155672457 @default.
W4308209739 hasConceptScore W4308209739C159985019 @default.