شبیه‌سازی آب‌ شیرین‌ کن خورشیدی دو طرفه همراه با بازتاب‌ دهنده‌ ی خارجی چرخان

در مطالعه‌ی حاضر آب‌شیرین‌کن خورشیدی دوطرفه همراه با بازتابنده‌ی خارجی چرخان، که در آن تابش خورشید به کف حوضچه‌ی متمرکز و در نتیجه میزان بهره‌وری افزایش یافته، شبیه‌سازی شده است. برای این منظور معادلات پیوستگی، مومنتوم، انرژی و جرم با در نظر گرفتن فرضیات سیال هوای مرطوب تکفاز، جابه‌جایی طبیعی آرام، پایا و دوبعدی با استفاده از نرم‌افزار کامسول حل شده‌اند. مقایسه‌ی نتایج شبیه‌سازی برای دو زاویه‌ی اولیه با نتایج آزمایشگاهی انجام شده در تاریخ 20 آبان ماه سال 1396 برای شرایط آب و هوایی دزفول با طول و عرض جغرافیایی 48٫36 و 32٫42 درجه واقع در جنوب غربی ایران نشان می‌دهد که تطابق خوبی بین آنها وجود دارد. به‌علاوه نتایج نشان می‌دهد که تغییر زاویه‌ی اولیه‌ی بازتابنده‌ی خارجی، دمای آب و شیشه را به ترتیب 7 و 4 درصد افزایش می‌دهد. همچنین عدد ناسلت به میزان 5 درصد کاهش یافته که موجب افزایش میزان بهره‌وری تا حدود 32 درصد شده است.

Simulation of a Double Slope Solar Still with Rotating External Reflector

In recent years, for some reasons such as population growth, environmental pollution, industrialization, and urbanization, drinking water has been challenging to access. Therefore, solar still is considered one of the promising available technologies to produce drinking water because of its advantages such as abundance, cleanliness, and economics. However, their productivity is relatively low, and present designs need to improve and develop. To achieve high desalination performance, researchers have made many efforts to build different designs of solar desalination and found that desalination made with reflectors would be a good idea. Reflectors in solar desalination can be divided into three different sectors: indoor reflectors, external reflectors, and a combination of indoor and outdoor reflectors. Internal or external reflectors concentrate solar radiation on the basin and can increase the desalination performance. On the other hand, timeconsuming and expensive solar manufacturing processes still lead researchers to use computational fluid dynamics. Therefore, the present study was done to simulate a double slope solar still with an external rotating reflector, in which sun radiation is concentrated on the basin water, resulting in an increase in productivity. Thus, equations of continuity, momentum, energy, and concentration conservation were solved using Comsol Multiphysics software by assuming the fluid as singlephase humid air, laminar natural convection, and steadystate condition 2D geometry. The simulation was done for two primary angles, and the results were compared with the experimental data available for 20th November 2017 in Dezful weather conditions (longitude and latitude 48.36 and 32.42) located in southwestern Iran. It was shown that there was good agreement between the results. Moreover, it was shown that by changing the external reflector's primary angle, the temperature of water and glass increased by about 7% and 4%, respectively. In addition, the Nusselt number decreased by 5%, which caused an increase in the productivity rate by about 32%.