This report provides a comprehensive comparative study and design analysis of custom-constructed wind augmentation shrouds to enhance the efficiency of wind power output. It begins by emphasizing the importance of alternative energy sources, particularly wind energy, due to the depletion of fossil fuels and environmental concerns like global warming. The study highlights the challenges in utilizing wind power, such as complex terrains and turbulent winds, and introduces the concept of shrouded wind systems as a solution. The report then delves into the advantages of shrouded wind systems, including increased power output, ease of installation, and potential for local manufacturing, particularly in remote areas. The core of the study examines various techniques to improve wind turbine efficiency, including the use of slotted ducts and ring-profiled structures. The report discusses the relationship between wind speed and power generation, the impact of wind velocity on turbine performance, and the two main types of wind turbines (horizontal and vertical axis). It also touches upon the importance of numerical methods and computational fluid dynamics in optimizing wind farm layouts and understanding turbine wake interactions. The primary objective is to determine the most efficient ways to harness wind energy using appropriate shroud designs, offering a valuable resource for students and researchers in mechanical engineering and renewable energy.