This research focuses on the design, analysis, and construction of a biodiesel processing plant with the aim of improving global processes, control, and overall design efficiency. Biodiesel, a renewable energy source, offers environmental benefits and extends engine life. The study addresses the challenges associated with biodiesel usage, such as higher initial costs and potential engine issues, and proposes the use of waste vegetable oil to reduce processing costs. Various reactor designs from past studies are analyzed, emphasizing the need for effective mixing techniques. The research presents a novel prototype reactor and considers the selection of materials, stresses, strains, and insulation for each tank. Additionally, the study explores the use of different heating elements, including mica band heaters and immersion heaters, to achieve the required temperatures for transesterification. The findings also discuss the selection of gear motors and pumps for effective mixing and fluid transfer. The results of the construction and assembly of the biodiesel plant are presented, highlighting the inclusion of various accessories to enhance functionality. Finally, the research emphasizes the economic and environmental advantages of biodiesel production, considering energy consumption and cost savings in the Nigerian context.