COOLING OF GREENHOUSES USING SEAWATER: A SOLAR DRIVEN LIQUID-DESICCANT CYCLE FOR GREENHOUSE COOLING IN HOT CLIMATES

P.A. Davies, I. Harris, P.R. Knowles
Evaporative pads are frequently used for the cooling of greenhouses. However, a drawback of this method is the consumption of freshwater. In this paper it is shown, both theoretically and through a practical example, that effective evaporative cooling can be achieved using seawater in place of fresh water. The advantages and drawbacks of using seawater are discussed more generally. In climates that are both hot and humid, evaporative systems cannot always provide sufficient cooling, with the result that cultivation often has to be halted during the hottest months of the year. To overcome this, we propose a concept in which a desiccant pad is used to dehumidify the air before it enters the evaporative pad. The desiccant pad is supplied with a hygroscopic liquid that is regenerated by the energy of the sun. The performance of this concept has been modelled and the properties of various liquids have been compared. An attractive option is to obtain the liquid from seawater itself, given that seawater contains hygroscopic salts such as magnesium chloride. Preliminary experiments are reported in which magnesium chloride solution has been regenerated beneath a solar simulator.
Davies, P.A., Harris, I. and Knowles, P.R. (2006). COOLING OF GREENHOUSES USING SEAWATER: A SOLAR DRIVEN LIQUID-DESICCANT CYCLE FOR GREENHOUSE COOLING IN HOT CLIMATES. Acta Hortic. 719, 139-146
DOI: 10.17660/ActaHortic.2006.719.13
https://doi.org/10.17660/ActaHortic.2006.719.13
Evaporative cooling, desiccant cooling, solar energy
English
719_13
139-146

Acta Horticulturae