The scope of this project entails the design and implementation of a solar-powered mixer system aimed at preventing ice formation within a 200,000-gallon potable water tank. The tank, with dimensions of 40 feet in diameter and 21 feet in height, presents a considerable volume requiring efficient mixing to inhibit ice buildup. Notably, the design must accommodate the constraint of having no attachments mounted or drilled onto the tank, necessitating a non-invasive solution. Understanding the solar energy requirements, mixer design considerations, and potential environmental factors impacting the tank's operation is crucial for accomplishing project goals. The primary objective is to devise a solar mixer system that effectively circulates water within the tank to prevent ice formation during cold weather conditions. Accomplishments will include the development and installation of a solar-powered mixer that meets the specified requirements without compromising the integrity of the tank.