Home > News >

Time : 2015-05-14 16:28Source :analogtechnologies Author : Analog Click :

In practical applications, TEC can sustain work through continuous heat change of heat exchanger and cold and heat source. When the system works, the heat density of cold and hot ends can be up to 10⁴W/m², so effective operation is strongly dependent on heat transfer performance of cold and hot end. The heat dissipation of the cold end is more important than the hot end’s. Suppose the heat dissipating capacity of the cold end is q₁, the heat dissipating capacity of hot end is q₂ and the electric power consumption of the system is w₀. After the TEC is connected to a power supply, the cold end continuously absorbs q₁, which is cooling capacity. This part of the heat and electro-thermal consumption need to be dissipated from the hot end together, which can ensure the normal work of TEC and make TEC play an effective role.

Obviously,

Efficiency of TEC:

Thus, in order to improve the cooling efficiency, it mainly depends on heat dissipation and transfer cooling capacity. So the design of heat sink is very important. 

Currently, there are some common dissipating methods:

1.Air cooling. Heat transfer coefficient is about3~6 W/(m²•K) (natural convection) or 2 6 ~ 3 0 W/(m²•K) (forced convection). 

2.Liquid cooling. Heat transfer coefficient is about 100~1000W/(m²•K).

There are also some other dissipating methods, such as using melting heat, dissolution heat and thermal capacity. 

In the next paper, the specific heat-dissipating methods will be introduced. 

If you want to know more, please feel free to contact us.

Our web site is http://www.analogtechnologies.com/

Next : Air cooling of TEC Last : The characteristics of TEC technology (Ⅱ)