Affiliation:
1. Department of Chemical and Biological Engineering, Faculty of Applied Science The University of British Columbia Vancouver BC Canada
2. Department of Chemical Engineering, Faculty of Engineering—Rabigh Branch King Abdulaziz University Jeddah Saudi Arabia
3. Energy and Water Research Center (EWRC) Al‐Maddah Group Jeddah Saudi Arabia
Abstract
AbstractWater is an essential component of our lives. Conventional seawater desalination, based on fossil fuel energy, is primary in meeting freshwater demands. Thus, solar desalination still emerged as an alternative technology that employs environmentally friendly renewable energy. Here, we aim to design and simulate a novel hybrid solar photovoltaic (PV) system coupled with a single‐slope solar still unit for freshwater production. Various design techniques were utilized to fine‐tune the model towards producing 3–4.6 kg/m2 · day of distillate water, thereby calculating the design aspects such as tank size, energy, and cost. The results revealed that a conventional solar desalination system had 22% lower efficiency than the proposed novel still distillation unit assisted with a solar PV system (connected to a heating element). The maximum efficiency of 45% has been recorded at the peak solar insolation due to the combination of the solar PV system. According to our design constraints, only a 3 m2 basin area was required to achieve a productivity of = 1–5 kg/day. Design analysis showed that the total capital cost of a conventional still can be significantly reduced from 2600 to 1500 $/unit with PV system integration at the specified productivity and optimal solar radiation of ~17 MJ/m2 · day at peak time (02.00 PM). This work paves the way towards maximizing solar energy utilization from PV integration with solar desalination to achieve high freshwater productivity in single‐basin solar still systems.
Subject
General Chemical Engineering
Cited by
2 articles.
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