Replication data for: Calculations and graphs regarding maximum specific water yield in terms of relative humidity and temperature for different water-from-air technologies

Matlab code for generating: Figure 3: Maximum specific water yield of TRHS technology against relative humidity at different ambient air temperatures. Figure 6: Osmotic pressure π in the deliquescent salt reverse osmosis (DESARO) process against relative humidity at which the salt solution is in equilibrium with ambient air at 20°C. The inset is a zoom in the pressure range of practical interest. Figure 7: Maximum specific water yield of deliquescent salt reverse osmosis against relative humidity at different temperatures. Figure 9: Maximum specific water yield of active air cooling against relative humidity at four different temperatures. The system is considered not to be applicable (zero specific water yield) when the condensation surface is below the water freezing point. Figure 10: Preferred atmospheric water harvesting technology depending on climate conditions based on theoretical maximum specific water yields. Current limitations of TRHS (min. Φ = 60%) and DESARO (max. pressure 15 MPa) are taken into account; for desiccants a desorption enthalpy of 3,300,000 J/kg is considered.

Jaar van publicatie:2021

Toegankelijkheid:open

Uitgever:Harvard Dataverse

Licentie:CC0-1.0

Formaat:txt

Trefwoorden: Air cooling condensation, Atmospheric water harvesting, Deliquescent salt, Desalination, Desiccants, Hygroscopic materials, Thermoresponsive polymers