Power Plant Nano Coolant Fluid

Heat Transfer ٍEnhancer Fluid of Reboiler Stabilization unit Containing nanoparticles
Rate : 9

More efficient heat transfer systems are increasingly preferred because of the accelerating miniaturization، on the one hand، and the ever-increasing heat flux، on the other، in auto engine. The poor heat transfer properties of common fluids like water، compared to most solids is a primary obstacle to the high compactness and effectiveness of heat exchangers. Passive enhancement methods such as enhanced surfaces are often employed in thermofluid systems. Therefore، the development of advanced heat transfer fluids with higher thermalconductivity and improved heat transfer is in strong demand.
Nanofluids are heat transfer liquids with dispersed nanoparticles. Recent research has shown that they are capable of improving the thermal conductivities and heat transport properties of the base fluid and enhancing energy efficiency and may have potential applications in the field of heat transfer enhancement. The effectiveness of heat transfer enhancement has been found to be dependent on the amount of ispersed particle، material type، particle shape and so on.
1- All heating and cooling exchangers.
2- Electricity diesel generators.
3- Power plant generators.
4- Civiland agriculture machineries.
5- All Cooling systems and chillers.
6- All diesel engines (trucks and buses)
7- All passenger cars.
Thisproduct، DZ Nano Coolant، is a colloid that containing metallic nanoparticles. Metallic nano colloid has superior thermal conductivity and electricconductivity that it is widely known to industrial areas.
DZ Nano Coolantis completely different fromother coolants usually used in domestic and foreign market. Actually، presentcoolants are «Boiling Point Temperature increasers»، whereas DZ Nano Coolantincreases the thermal conductivity coefficient of the main fluid in a coolantand internal surface of the container through which heat transfer efficiency ofthe coolant rises enormously.
1- Increasing the thermal conductivity coefficient in a coolant.
2- Cooling the heat exchangers.


Physical State 



Dark Liquid





Storage Condition

Prevent Freezing

Shelf Life

1 Year

Expiration Date

3 Years


0.5, 4 & 20 lit


Zeta Potential

-40 mV


Approximately 1 gr/cm3

Heat Transfer Improvement

15% in Copper and Brass radiators


Colloid Base

Deionized Water (H2O)


Phase of  Nanometric Part


Concentration of Nanometric Phase

50 ppm

Morphology of Nanometric Part


Size of Nanometric Part

20-100 nm

Classification in Nanotechnology


ISO/TS 27687 Standard - Part 4.1

ISIRI 12098 Standard- Part 2-33

Confirmed by Iranian Nanotechnology Initiative Council

Advantages of using Nanotechnology

Increases The Thermal Conductivity Coefficient of The Main Fluid in a Coolant

Product Standard

  • NanoScale Certification

    NanoScale Certification

    Standard Date : 2017/05/15

    Expire Date : 2019/05/14



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