My idea is to build a 4 stage TEC cooled water chiller to use in my PC. I do not care how much power it draws and how inefficient it is the object is to cool the water to whatever temperature I want or can get it to hopefully at least 5 to 10 degrees C. This will be controlled so that I only use however many stages I need depending on the water temps. Something like above 5 degrees C stage one will be one, stage 2 will come on at 10 degrees C, and stage 3 will come on at 15 degrees C and stage 4 at 20 degrees C. This is just an example and will need to work out the temp settings depending on dew point and level of insulation I use. </SPAN>
What I plan on doing is like the Attached Drawing.</SPAN>
Each block will have 1 40x40 TEC like the below.</SPAN>I will be using one of the below water blocks on each side of the TEC</SPAN> The water blocks will be purchased from Custom Thermoelectric at http://www.shop.customthermoelectric...4.qscstrfrnt02
All copper water block Liquid exchanger to rapidly remove heat from the hot side of peltier TECs or TEGs. Most efficient method of removing heat from a thermoelectric TEC or TEG. </SPAN></SPAN>
TECs and TEGs can be mounted to both sides thereby allowing heat removal from two 40x40mm TECs at the same time. </SPAN></SPAN>
All copper construction allows for parts and components to be soldered to water block for maximum thermal conduction. </SPAN></SPAN>
Measures: 1.62 x 1.62 x 0.55 inches </SPAN></SPAN>
Inlet and Outlet on the same side. </SPAN></SPAN>
Usable flat area of 1.62 x 1.62 inches (41 x 41 mm) per side </SPAN></SPAN>
Inlet & outlet tapped 1/16" NPT: Comes with 2 pieces Nylon barbed tube fittings for 3/16" ID tubing. </SPAN></SPAN>
Will accommodate per side; </SPAN></SPAN>
Single TECs or TEGs up to 40 x 40mm </SPAN></SPAN>
2, 3, or 4 TECs up to 20 x 20mm </SPAN></SPAN>
CNC Machined from a solid billet of copper. Brazed together to a 100 psi rated watertight seal. </SPAN></SPAN>
Minimum flow rate: 0.1 gpm. Maximum flow rate: 2.5 gpm</SPAN></SPAN>
The drawing I have attached shows one block of TEC coolers each one a stage. The first one is first stage; the 2nd one is the 2ndI need feedback and people to tell me if I am doing anything wrong if they think this will work or anything like this?????</SPAN></SPAN>
What I plan on doing is like the Attached Drawing.</SPAN>
Each block will have 1 40x40 TEC like the below.</SPAN>I will be using one of the below water blocks on each side of the TEC</SPAN> The water blocks will be purchased from Custom Thermoelectric at http://www.shop.customthermoelectric...4.qscstrfrnt02
All copper water block Liquid exchanger to rapidly remove heat from the hot side of peltier TECs or TEGs. Most efficient method of removing heat from a thermoelectric TEC or TEG. </SPAN></SPAN>
TECs and TEGs can be mounted to both sides thereby allowing heat removal from two 40x40mm TECs at the same time. </SPAN></SPAN>
All copper construction allows for parts and components to be soldered to water block for maximum thermal conduction. </SPAN></SPAN>
Measures: 1.62 x 1.62 x 0.55 inches </SPAN></SPAN>
Inlet and Outlet on the same side. </SPAN></SPAN>
Usable flat area of 1.62 x 1.62 inches (41 x 41 mm) per side </SPAN></SPAN>
Inlet & outlet tapped 1/16" NPT: Comes with 2 pieces Nylon barbed tube fittings for 3/16" ID tubing. </SPAN></SPAN>
Will accommodate per side; </SPAN></SPAN>
Single TECs or TEGs up to 40 x 40mm </SPAN></SPAN>
2, 3, or 4 TECs up to 20 x 20mm </SPAN></SPAN>
CNC Machined from a solid billet of copper. Brazed together to a 100 psi rated watertight seal. </SPAN></SPAN>
Minimum flow rate: 0.1 gpm. Maximum flow rate: 2.5 gpm</SPAN></SPAN>
The drawing I have attached shows one block of TEC coolers each one a stage. The first one is first stage; the 2nd one is the 2ndI need feedback and people to tell me if I am doing anything wrong if they think this will work or anything like this?????</SPAN></SPAN>
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