Abstract
This study investigates the utilization of a sodium polyacrylate (SP)/CaCl(2) composite as an adsorbent in a low-grade-heat desalination configuration designed for Saudi Arabian conditions. A dynamic system model was developed and validated for an adsorption desalination (AD) cycle integrated with a dual-ejector and a humidification-dehumidification (HDH) unit. Two operating modes were evaluated, including a production-oriented configuration that applies internal evaporator-condenser heat recovery (HR) when no cooling effect is required. Without HR, the AD-EJ-HDH system achieves 41-56 m(3)/ton·day SDWP and 2.6-2.9 GOR, with a freshwater cost of 1.8-2.4 $/m(3) under solar driving and 0.70-0.90 $/m(3) under waste heat. With HR, performance increases to SDWP 95-155 m(3)/ton·day and GOR 2.9-3.1, while costs decrease to about 1.34 $/m(3) (solar) and 0.38 $/m(3) (waste heat) in June. The SP/CaCl(2) composite yields about 85% higher freshwater production than silica gel in the same system, highlighting the material's potential for high-output hybrid adsorption desalination in hot-climate regions.