Ice-Cooled Computer Cooler breaks zero, 0.00c, temperature barrier
I am pleased to report that I have been able to lower the temperature of the primary cooling element of Ice-cooled Computer Cooler (ICCC) to exactly –31.00c but didn’t dare to apply it because of condensation issue. But after raising the temperature of the primary cooling element of Ice-Cooled Computer Cooler to –2.00c, I applied it to cool my computer’s CPU, p4 2.80ghz. The internal temperature, core, of CPU reached to as low as 7.50c and the temperature of heat sink, in this case waterblock, reached to as low as 2.50c. As soon as I develop a proper means to deal with condensation issue, I will use Ice-Cooled Computer Cooler at –31.00c to cool down my computer.
Wait a minute!!! But I said: ‘Ice-Cooled Computer Cooler breaks zero, 0.00c, temperature barrier.’
Yes, that is right. In theory Ice-Cooled Computer Cooler can lower CPU’s operating core temperature to as low as –18.00c when the primary cooling element is at
-31.00c. This is based on the following observation:
Before adding primary cooling element at -2.00c, the existing primary cooling element inside Ice-Cooled Computer Cooler was 27.00c and the core temperature of CPU was 33.00c under normal load. When the primary cooling element at –2.00c added, the temperature of Ice-Cooled Computer Cooler came down by 27 + (-2) = 29.00c to become –2.00c. The core temperature of CPU came down by 33 – 7.5 = 25.5 to become 7.50c. So we have reduced CPU’s core temperature by 25.50c for a price of reducing the temperature of Ice-Cooled Computer Cooler by 29.00c. But we can reduce the primary cooling element to –31.00 or cooler by another 29.00c. This means we can lower the temperature of Ice-Cooled Computer Cooler by another 29.00c after –2.00c to –31.00c. This implies that the core temperature of CPU can be lowered by another 25.5 from 7.50c or to 25.5 – 7.5 = 18 or –18.00c.
Ice-Cooled Computer Cooler is my own intellectual property. I designed it to improve the existing computer water-cooling systems. It creates internal inward pressure, which prevents leaking. It can break room temperature barrier and in theory it can break zero, 0.00c, temperature barrier. It can be used for spot cooling or general cooling or both.
For the story behind the conception of ICCC, please visit my site at:
http://www.ice-cooled-computer-cooler.homechoice.co.uk
Sorry! The site has not been updated for a while.
http://www.tomshardware.co.uk/2003/12/30/5_ghz_project/
I am pleased to report that I have been able to lower the temperature of the primary cooling element of Ice-cooled Computer Cooler (ICCC) to exactly –31.00c but didn’t dare to apply it because of condensation issue. But after raising the temperature of the primary cooling element of Ice-Cooled Computer Cooler to –2.00c, I applied it to cool my computer’s CPU, p4 2.80ghz. The internal temperature, core, of CPU reached to as low as 7.50c and the temperature of heat sink, in this case waterblock, reached to as low as 2.50c. As soon as I develop a proper means to deal with condensation issue, I will use Ice-Cooled Computer Cooler at –31.00c to cool down my computer.
Wait a minute!!! But I said: ‘Ice-Cooled Computer Cooler breaks zero, 0.00c, temperature barrier.’
Yes, that is right. In theory Ice-Cooled Computer Cooler can lower CPU’s operating core temperature to as low as –18.00c when the primary cooling element is at
-31.00c. This is based on the following observation:
Before adding primary cooling element at -2.00c, the existing primary cooling element inside Ice-Cooled Computer Cooler was 27.00c and the core temperature of CPU was 33.00c under normal load. When the primary cooling element at –2.00c added, the temperature of Ice-Cooled Computer Cooler came down by 27 + (-2) = 29.00c to become –2.00c. The core temperature of CPU came down by 33 – 7.5 = 25.5 to become 7.50c. So we have reduced CPU’s core temperature by 25.50c for a price of reducing the temperature of Ice-Cooled Computer Cooler by 29.00c. But we can reduce the primary cooling element to –31.00 or cooler by another 29.00c. This means we can lower the temperature of Ice-Cooled Computer Cooler by another 29.00c after –2.00c to –31.00c. This implies that the core temperature of CPU can be lowered by another 25.5 from 7.50c or to 25.5 – 7.5 = 18 or –18.00c.
Ice-Cooled Computer Cooler is my own intellectual property. I designed it to improve the existing computer water-cooling systems. It creates internal inward pressure, which prevents leaking. It can break room temperature barrier and in theory it can break zero, 0.00c, temperature barrier. It can be used for spot cooling or general cooling or both.
For the story behind the conception of ICCC, please visit my site at:
http://www.ice-cooled-computer-cooler.homechoice.co.uk
Sorry! The site has not been updated for a while.
http://www.tomshardware.co.uk/2003/12/30/5_ghz_project/
