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Electrical Salinometer Working Principle

Electrical Salinometer Working Principle

Working Principle of Salinometer

The electrical supply to the salinometer must be DC. The potentiometer is provided to give a fixed standard calibration voltage so that no errors to voltage differences exist.

Pure water is non-conducting so that current flow is an indication of impurities, i.e. the greater the current the greater the impurity in the water. Figure below shows a salinometer usually found with a freshwater generator.

electrical_salinometer

When the impurity content exceeds a fixed value the current is sufficient to operate the relay 2 so giving visual or audible warning by closing the circuit. Continued operation at increased current would cause Relay 1 to short circuit the meter and so protect it.

Water temperature increases conductivity so that temperature compensation is required. A temperature compensating thermometer is a shunt across the meter. Temperature increase causes a rise of mercury level and a cutting out of resistance which allows more current through the shunt and less through the meter. The correct calibration current through the meter is fixed; current variations due to temperature are shunted.

 

References

“Steam Engineering Knowledge for Engineers” by Thomas D. Morton

    HP P