TITCB 用于 TICB 的同心管热交换器

CONCENTRIC TUBE HEAT EXCHANGER FOR TICB - TITCB

創新系統

The Concentric Tube Heat Exchanger for TICB, "TITCB", designed by EDIBON, allows for the study of heat transfer between two fluids: the hot water flowing through the inner tube and the cold water flowing through the annular zone between the inner and outer tubes. This unit enables analysis of how heat transfer varies under different conditions, such as changes in flow rate, temperature, and flow type (counterflow or parallel flow).

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一般說明

The Concentric Tube Heat Exchanger for TICB, "TITCB", designed by EDIBON, allows for the study of heat transfer between two fluids: the hot water flowing through the inner tube and the cold water flowing through the annular zone between the inner and outer tubes. This unit enables analysis of how heat transfer varies under different conditions, such as changes in flow rate, temperature, and flow type (counterflow or parallel flow).

A concentric tube heat exchanger allows for the study and analysis of heat transfer between two fluids flowing through concentric tubes, one inside the other. This includes investigating the efficiency of the heat exchanger, studying the effectiveness of heat exchange, the influence of flow rate on heat transfer, and comparing different flow configurations, such as counterflow and parallel flow.

Additionally, this unit allows for the development of specific practices to determine the overall energy balance in the heat exchanger, calculate the effectiveness of the heat exchanger using the NTU method, and study the influence of Reynolds number on heat transfer.

In summary, the TITC offers students, teachers, and researchers the opportunity to understand and practice the fundamental principles of heat transfer and its application 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.

練習和指導練習

手册中包含的指导实践练习

  1. Global energy balance in the heat exchanger and the study of losses.
  2. Exchanger effectiveness determination. NTU Method.
  3. Study of the heat transfer under counter-current and co-current flow conditions.
  4. Flow influence on the heat transfer. Reynolds number calculation.

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