This paper presents the design and analysis of a shell and tube heat exchanger specifically tailored for the efficient handling of methyl chloride. The utilization of heat exchangers in industrial processes is well-established, yet the unique properties and requirements of methyl chloride demand a specialized approach to design. Through a comprehensive literature review and an in-depth exploration of previous designs, this study outlines the key considerations and challenges in creating an effective heat exchanger for this application. The Tubular Exchanger Manufacturers Association (TEMA) standard guides the design process for the heat exchanger, providing the necessary dimensional specifications. Alongside these, specific details regarding the working fluid are meticulously defined. The evaluation of these parameters involves manual calculations using the Microsoft Excel application to assess the performance of the designed heat exchanger. Findings from the study suggest that the designed heat exchanger meets established standards. With 85 tubes and an effective value surpassing 75%, it demonstrates strong performance. A high tool effectiveness value signifies the heat exchanger's commendable operational capability.