TIFTB Turbulent Flow Heat Exchanger for TICB

The Turbulent Flow Heat Exchanger for TICB, "TIFTB", designed by EDIBON, provides a comprehensive environment for the detailed study of heat transfer between hot water flowing through an internal tube and cold water circulating in the annular space between the internal and external tubes. This unit facilitates the analysis of heat transfer variation under different conditions, including changes in flow rate, temperature, and flow type, whether counterflow or parallel.

With a design optimized to enhance heat transfer efficiency, the Turbulent Flow Heat Exchanger for TICB provides an effective tool for thermal exchange analysis and experimentation. Additionally, it enables temperature measurement between the tubes, crucial for ensuring effective heat transfer and detecting potential issues. This capability facilitates monitoring the exchanger’s efficiency, identifying system faults, optimizing design, and understanding thermal distribution within the unit. Consequently, calculations such as overall energy balance in the exchanger and loss analysis, determination of exchanger effectiveness using the NTU method, study of heat transfer under counterflow and parallel flow conditions, analysis of flow rate influence on heat transfer through Reynolds number calculation, correlation between Nusselt number and Reynolds and Prandtl numbers, and determination of convective heat transfer coefficients can be performed.

These detailed measurements allow adjustment of the exchanger’s operation to enhance performance and ensure proper heat flow between circulating fluids. In summary, the Turbulent Flow Heat Exchanger for TICB, "TIFT," offers students, professors, and researchers the opportunity to thoroughly understand and apply the fundamental principles of heat transfer in such exchangers. Thanks to its innovative design, this unit enables detailed and applicable comprehension in the industry.

To work with this unit, the Base and Service Unit, "TIUSB," is required, which provides key functions such as heating water using a thermostatic bath, pumping hot water, regulating and measuring the flow rates of cold and hot water, measuring the inlet and outlet temperatures of cold and hot water, as well as measuring the pressure drop in the heat exchanger.