Product Introduction:
The TH203 shell and tube heat exchanger is a simple thermodynamic model that demonstrates the basic principles of heat transfer. The TH203 shell and tube heat exchanger needs to be used in conjunction with the TH200 heat exchanger basic test bench. The TH203 shell and tube heat exchanger is installed on the TH200 platform panel. The shell side of the TH203 shell and tube heat exchanger consists of two support bodies and a transparent tube shell. The support body is connected to 14 equally spaced stainless steel tubes by two end plates to form the tube side. The end face of the support body is connected to the end cap and water pipe joint, allowing hot water from the hot water tank to flow through fourteen pipe passes through the end cap and then return to the hot water tank in a closed loop through the other end cap. Cold water from the chiller unit enters through the joint on one side of the support body, flows through the transparent pipe through the joint on the other side to form a closed loop, and heat is transferred from the pipe side to the shell side. There are two baffles in the shell to promote turbulence and increase heat transfer efficiency.
detailed information
| PRODUCT MODEL | TH203 | product name | Shell and Tube Heat Exchanger |
| Product specifications | 500×200×159 | product material | Transparent acrylic resin |
| Usage environment | 0 ℃ ≤ Temperature ≤ 45 ℃ Relative humidity ≤ 85% | Input power supply | Single phase three wire, 220V ± 5%, 50Hz |
| Belonging series | Heat Transfer | Cooperate with modules | TH200 |
| Experimental function: |
| 1、Research on the principle and process of wall to wall convective heat transfer 2、Study the energy balance within the system and the overall heat transfer efficiency at different flow rates 3、Study the difference in heat transfer efficiency between forward and reverse flow, as well as the temperature distribution within the system 4、Using the logarithmic mean temperature difference method to calculate the total heat transfer efficiency 5、Study the influence of flow rate changes of cold and hot water on temperature efficiency and heat transfer efficiency 6、Study the effect of temperature difference between cold and hot water on heat transfer efficiency in both forward and reverse flow |