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Dienstag, 30. Januar 2024, 19:12
That is surprising because the conductivity of Cryofuel is far higher than the conductivity sensor in the High Flow Next can measure. What conductivity value is the sensor reporting? The sensor can measure from 2uS/cm to 200uS/cm. Note the “u” means micro. EK claims Cryofuel has "low electrical conductivity". The product WEB PAGE states that the conductivity of Cryofuel is 1.4 mS/cm which is 1040 uS/cm. This is ~5X higher than the conductivity sensor can measure.I've been using EK Cryofuel clear premix for the last few months and my HF Next says everything is in the green, 100% quality...
I agree, There was a long discussion about this on the English forum in 2021. Someone was using Cryofuel and could not understand why the conductivity sensor in their High Flow Next was not working properly. The conversation begins HERE with a post from torexko and continues through the thread with posts about other things mixed in. He contacted EK who STATED that the initial conductivity of Cryofuel is actually ~2330 uS/cm, which is ~11.6X higher than the sensor can measure. Cryofuel’s corrosion inhibitor is sodium 2-ethylhexanoate. Conductivity starts out very high and decreases as the inhibitor forms a protective coating on metal surfaces. It stabilizes around 1040 uS/cm.the conductivity sensor is more or less useless for coolants like the Cryofuel, or other non-glycol based concentrates. the reading will be high from the start.
if you switch to DP ultra (after a thorough flush) the reading should drop way down and the sensors will make sense.
I don't know why you are getting that low value for conductivity with Cyrofuel. Aquacomputer specs for the High Flow Next say the sensor can measure from 2 to 200uS/cm. EK specs for cryofuel says conductivity is 1.04mS/cm (1040uS/cm) +/-10% That is way beyond the maximum value that the sensor can measure. There are many ways to measure flow rate but AFAIK, there is only 1 way to measure conductivity of a fluid. A voltage is applied so current flows between 2 (or sometimes 4) electrodes that are immersed in the fluid. The sensor calculates the resistance of the fluid by measuring the voltage drop across the electrodes and applying Ohm's Law. Conductance is the reciprocal of resistance The measured value is converted to conductivity by applying a calibration curve or formula specific to the sensor. Conductivity is affected by temperature so some conductivity measurement systems also include a temperature probe and apply a compensation value based on the measured temperature of the fluid.Here's a SS of my setup with water quality etc
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