Before beginning I would like to put a highlight on the Water-cooling technology which we are using right now during the overclocking process. The only problem is the evolution of the liquid cooling technology is that it has not evolved so quickly, so that the doubling of transistors coupled to the increased frequency of these have resulted in electrical power consumed and heat generated power more and more important. On the heat dissipation of 8 Watts for a Pentium 75, it reached to 82 Watts for a Pentium 4 3.2c GHz through a 1.27 Watts for a Pentium II 450. At the same time, thermal solutions have not undergone the same evolution. If we can conceive no longer a modern CPU without a couple heatsink + fan, this type of solution begins to show its limits both in terms of dissipation during overclocking for example, that report dissipation noise ratio.
To dissipate the heat generated by the processors of our machines are used in most cases a couple heatsink + fan cooler more commonly known. The first piece, the cooler, located on the element to cool. It takes the heat by thermal conduction (momentum exchange between molecules), and evacuated by convection (transfer of heat by movement of molecules of the coolant). The efficiency of the heater depends mainly on two factors: the surface presented to the coolant (air or water, which will be responsible for transporting heat in other countries) and especially the ability of the sink to pump heat from the hot object linked to its thermal conductivity.
The difference between the cooling air and cooling water is primarily in the coolant that will be responsible for the transfer of heat. Indeed, it will in the first case of air and in the second water. Although denser than air, water is therefore better for the transport of heat by convection. It should be noted that the liquid having the higher conductivity in a natural state is water, the best choice for cooling water is demineralized water.
Three main elements necessary for a water cooling system:
- The internal heat exchanger, which is placed on the CPU. Like the radiator in the cooling water, the pump heat exchanger is by conduction processor. This heat will once again be removed by convection heat transfer is through our water
- The pump, which will create the cycle of water needed to convection, as the fan in the case of cooling air.
- The external heat exchanger, which aims to undo our coolant - water - heat it has accumulated during its passage through the internal heat exchanger with the cycle created by the pump. Mostly we use a heat exchanger cooling water by air and forced convection, which is created by a fan.
Liquid Coolant :
Company Thermochill, known for its legendary radiator for liquid cooling systems, to the public coolant under its trademark - Thermochill EC6. According to the company, their new product is a highly effective environmentally safe coolant based on a mixture of refined vegetable extracts, non-toxic corrosion inhibitors and dyes to UV radiation. Coolant protects the copper, brass, steel, nickel and aluminum and even has been tested with a number of acetates and acrylic plastic.
Used non-toxic dyes were stable with time and does not fall in the form of sludge and do not settle on the hoses. EC6 produced and bottled in the UK under strict quality control. EC6 has high thermal conductivity, does not conduct electricity and has a bright color and intense ultraviolet glow. At the moment coolant represented by three colors - clear, green neon UV and blue UV.
Thermochill EC6 is a high performance eco-friendly coolant for PC water-cooling based on a blend of refined vegetable extracts with non-toxic corrosion inhibitors and non-toxic UV dyes. It offer's superb protection for copper, brass, steel, nickel & aluminum and has even been tested with a range of acetyl and acrylic plastics. EC6 has a high thermal conductivity, is electrically non-conductive* and with its range of intense bright UV colors it's the perfect coolant for PC water-cooling.
The coolant ships in a natural color 1 Liter HDPE bottle, which has a high flow easy pour neck and comes complete with a secure "twist break seal" so you can be 100% sure there has been no contamination to your new coolant. The non toxic UV dyes in EC6 are stable and are designed not to separate or stain your tubing over time, EC6 is produced and bottled in the UK under the strictest quality control measures.
Details:
- Pre-mixed with No Need for Additional Additives - Ships ready for use
- Corrosion protection for Copper, Brass, Steel, Nickel and Aluminum Proven to ASTM D3306 and BS6580 standards
- Prevents build up of Algae & growth within in your liquid cooled system
- Electrical Conductivity <2µS/cm at 24C * (most competitors struggle to reach <10µS/cm)
- Non-Toxic and RoHS Compliant
- Freezing Point - 6C
- 85% Bio-degradable Within 30 Days
- Available in a None colored option or an expanding range of *non toxic UV colors
- Shelf Stable UV Reactive Dyes of up to 2 years
- EC6 is a true Eco Friendly Product
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