SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W829422712> ?p ?o ?g. }

Showing items 1 to 100 of ±107 with 100 items per page.

W829422712 endingPage "360" @default.
W829422712 startingPage "354" @default.
W829422712 abstract "Energy and water are the two major issues faced by human beings nowadays. Owing to increase in the energy costs and the adverse effect on the environment caused by the burning of fossil fuels, renewable energy sources are being used worldwide to contribute in meeting the energy demand. Renewable energy denotes a clean, nontoxic energy source that cannot be exhausted. The primary renewable energy sources are the sun, wind, biomass, tide, waves and geothermal energy. Harnessing the abundance of solar energy has been one of the most attractive energy alternatives. The development of an efficient and economical solar energy storage system is of major concern. Energy storage plays an important role in conserving available energy and improving its utilization. Electrical energy consumption varies during day time and night time. Solar energy is available only during the day. Hence its applications require efficient thermal energy storage so that the excess heat collected during sunshine hours may be stored for later use during the night time. The main problem while utilizing solar energy is its availability which is often intermittent, variable and unpredictable. These problems can be addressed by the storage of thermal energy. Thermal energy storage (TES) will improve the efficiency and output of solar power.A thermal energy storage system mainly consists of three parts, the storage medium, heat transfer mechanism and containment system. Thermal energy storage (TES) applications have significantly increased because of the increase in the energy prices and environmental regulations. Latent heat storage (LHS) is one of the efficient ways of storing thermal energy. Unlike the sensible heat storage (SHS) method, the latent heat storage method provides much higher storage density with a smaller temperature difference between storing and releasing heat. There are large numbers of phase change materials that melt and solidify at a wide range of temperatures. The reason behind using phase change materials is due to their advantages such as low cost, high storage density and isothermal operation. For the solar desalination process, they are used as a bridge to cross the gap between the energy source, the sun and the desalination unit." @default.
W829422712 created "2016-06-24" @default.
W829422712 creator A5017273847 @default.
W829422712 creator A5068484221 @default.
W829422712 creator A5073297794 @default.
W829422712 creator A5086787931 @default.
W829422712 date "2015-01-01" @default.
W829422712 modified "2023-09-27" @default.
W829422712 title "A Review on Solar Water Distillation Using Sensible and Latent Heat" @default.
W829422712 cites W1967932542 @default.
W829422712 cites W1973026605 @default.
W829422712 cites W1977805604 @default.
W829422712 cites W1999586366 @default.
W829422712 cites W2001697034 @default.
W829422712 cites W2013391671 @default.
W829422712 cites W2014981808 @default.
W829422712 cites W2027411473 @default.
W829422712 cites W2031734225 @default.
W829422712 cites W2043287778 @default.
W829422712 cites W2044286499 @default.
W829422712 cites W2059532522 @default.
W829422712 cites W2065858856 @default.
W829422712 cites W2080144297 @default.
W829422712 cites W2084430330 @default.
W829422712 cites W2094479734 @default.
W829422712 cites W2096504525 @default.
W829422712 cites W2146254416 @default.
W829422712 cites W2167441162 @default.
W829422712 cites W2199322395 @default.
W829422712 cites W4233888997 @default.
W829422712 doi "https://doi.org/10.1016/j.proeps.2015.06.072" @default.
W829422712 hasPublicationYear "2015" @default.
W829422712 type Work @default.
W829422712 sameAs 829422712 @default.
W829422712 citedByCount "22" @default.
W829422712 countsByYear W8294227122015 @default.
W829422712 countsByYear W8294227122017 @default.
W829422712 countsByYear W8294227122018 @default.
W829422712 countsByYear W8294227122019 @default.
W829422712 countsByYear W8294227122020 @default.
W829422712 countsByYear W8294227122021 @default.
W829422712 countsByYear W8294227122022 @default.
W829422712 countsByYear W8294227122023 @default.
W829422712 crossrefType "journal-article" @default.
W829422712 hasAuthorship W829422712A5017273847 @default.
W829422712 hasAuthorship W829422712A5068484221 @default.
W829422712 hasAuthorship W829422712A5073297794 @default.
W829422712 hasAuthorship W829422712A5086787931 @default.
W829422712 hasBestOaLocation W8294227121 @default.
W829422712 hasConcept C107861326 @default.
W829422712 hasConcept C119599485 @default.
W829422712 hasConcept C120441037 @default.
W829422712 hasConcept C121332964 @default.
W829422712 hasConcept C127413603 @default.
W829422712 hasConcept C153294291 @default.
W829422712 hasConcept C163258240 @default.
W829422712 hasConcept C183287310 @default.
W829422712 hasConcept C188573790 @default.
W829422712 hasConcept C18903297 @default.
W829422712 hasConcept C21880701 @default.
W829422712 hasConcept C39432304 @default.
W829422712 hasConcept C541104983 @default.
W829422712 hasConcept C548081761 @default.
W829422712 hasConcept C58024561 @default.
W829422712 hasConcept C68189081 @default.
W829422712 hasConcept C73916439 @default.
W829422712 hasConcept C86803240 @default.
W829422712 hasConcept C97355855 @default.
W829422712 hasConceptScore W829422712C107861326 @default.
W829422712 hasConceptScore W829422712C119599485 @default.
W829422712 hasConceptScore W829422712C120441037 @default.
W829422712 hasConceptScore W829422712C121332964 @default.
W829422712 hasConceptScore W829422712C127413603 @default.
W829422712 hasConceptScore W829422712C153294291 @default.
W829422712 hasConceptScore W829422712C163258240 @default.
W829422712 hasConceptScore W829422712C183287310 @default.
W829422712 hasConceptScore W829422712C188573790 @default.
W829422712 hasConceptScore W829422712C18903297 @default.
W829422712 hasConceptScore W829422712C21880701 @default.
W829422712 hasConceptScore W829422712C39432304 @default.
W829422712 hasConceptScore W829422712C541104983 @default.
W829422712 hasConceptScore W829422712C548081761 @default.
W829422712 hasConceptScore W829422712C58024561 @default.
W829422712 hasConceptScore W829422712C68189081 @default.
W829422712 hasConceptScore W829422712C73916439 @default.
W829422712 hasConceptScore W829422712C86803240 @default.
W829422712 hasConceptScore W829422712C97355855 @default.
W829422712 hasLocation W8294227121 @default.
W829422712 hasOpenAccess W829422712 @default.
W829422712 hasPrimaryLocation W8294227121 @default.
W829422712 hasRelatedWork W1945333005 @default.
W829422712 hasRelatedWork W2254265157 @default.
W829422712 hasRelatedWork W2936731851 @default.
W829422712 hasRelatedWork W3035365585 @default.
W829422712 hasRelatedWork W3097094860 @default.
W829422712 hasRelatedWork W3106757420 @default.
W829422712 hasRelatedWork W4289295406 @default.
W829422712 hasRelatedWork W4294591352 @default.