dc.contributor.author | Fountoukidis, E | en |
dc.contributor.author | Leontaridis, N | en |
dc.contributor.author | Yanniotis, S | en |
dc.date.accessioned | 2014-06-06T06:42:27Z | |
dc.date.available | 2014-06-06T06:42:27Z | |
dc.date.issued | 1993 | en |
dc.identifier.uri | http://dx.doi.org/10.1016/0038-092X(93)90120-D | en |
dc.identifier.uri | http://62.217.125.90/xmlui/handle/123456789/636 | |
dc.subject | Air Temperature | en |
dc.subject | Alkaline Earth Metal | en |
dc.subject | Calcium Chloride | en |
dc.subject | Mass Balance | en |
dc.subject | Mathematical Model | en |
dc.subject | Phase Transformation | en |
dc.subject | Rate Equation | en |
dc.subject | Solar Energy | en |
dc.subject | Solar Radiation | en |
dc.subject | Theoretical Model | en |
dc.subject | Weather Condition | en |
dc.title | Theoretical model for direct solar regeneration of hygroscopic solutions | en |
heal.type | journalArticle | en |
heal.identifier.primary | 10.1016/0038-092X(93)90120-D | en |
heal.publicationDate | 1993 | en |
heal.abstract | A mathematical model for direct solar regeneration of hygroscopic solutions in shallow basins is presented in this article. The model is based on the enthalpy balance, mass balance, and rate equations that describe the system. The solar radiation, air temperature, humidity, velocity, as well as the initial concentration, temperature, and mass of the solution are used as input data to | en |
heal.journalName | Solar Energy | en |
dc.identifier.doi | 10.1016/0038-092X(93)90120-D | en |
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