Abstract
•The description of a DCMD pilot plant built at CEDT-KAU had been presented.•The performance evaluation has been interested to permeability coefficient and production vs. time.•The thermal energy distribution has been studied for both arrangements.•The STECMin was estimated for both arrangements with and without HRD.
This paper presents the experimental results of a solar driven DCMD plant. The plant comprises four main loops. The first loop consists of the solar with a total area of 20m2. The PV panels make up the second loop, which has a peak output of 1.48kWpeak. The third loop in the DCMD represents three modules with a total area of 3.39m2. The fourth loop is a thermal sink with a cooling water capacity of 103L/h. Two heat exchangers are installed within the plant. The DCMD performance was evaluated in two modes, with the HRD (arrangement B) and without the HRD (arrangement A), during two days under various operating parameters. The permeability coefficient of the membrane was 3.27×10−7L/m2sPa. The distillate per module was 3.31L/h and 4.59L/h for arrangements A and B, respectively. Thermal energy efficiency indicated that a fraction thermal energy was lost to the surroundings, and the balance was divided into two fractions, useful and non-useful heat. The STECmin was 2342kW/m3 for the arrangement A and 1609kW/m3 for the arrangement B. Energy flow diagrams confirmed the positive impact of the HRD with a positive contribution of 3.77kW.