Open AccessNumerical Simulation of Rock-bed Solar Thrmal Storage Energy
Author(s) -
Ebangu Orari Benedict,
Dintwa Edward,
Oboetswe S. Motsamai,
O. D. Grace
Publication year - 2020
Publication title -
al-ṭāqaẗ al-s̆amsiyyaẗ wa-al-tanmiyyaẗ al-mustadāmaẗ/solar energy and sustainable development
Language(s) - English
Resource type - Journals
eISSN - 2414-6013
pISSN - 2411-9636
DOI - 10.51646/jsesd.v9i1.14
Subject(s) - solar irradiance , environmental science , irradiance , solar energy , meteorology , matlab , thermal energy storage , passive solar building design , thermal , engineering , computer science , geography , optics , electrical engineering , physics , thermodynamics , operating system
Solar dryers are increasingly being applied to dry fruits and vegetables in order to increase their shelf-lives. In the sunny-belt countries, the availability of solar irradiance is taken for granted and the mean daily solar irradiation is oftn used as the design basis for a solar dryer. Th predicted performance of the solar irradiance is therefore inherently inaccurate. Contemporary solar dryer designs incorporate thermal energy storage (TES) systems for application aftr sunset. Th performance of such TES systems is oftn determined experimentally. In this study, mathematical models have been developed and by numerical simulation using the technique of Finite Diffrential Method (FDM) and MATLAB programming, the performances of solar irradiance as well as that of the TES system have been predicted. Th simulation results were secured to inform the design of the solar dryer for fruits and vegetables in the sun-belt countries.