AquaSensor - AS 1000

POA

AquaSensor AS 1000 - A Leading Water In Oil Sensor

The AS 1000 AquaSensor will be discontinued by 31st of October 2022, the new AquaSensor AS 1200 series will be available as replacement. See data-sheet on this page data-sheet tab.

The AquaSensor AS 1000 water in oil measurement device is the culmination of the continued development of the successful AS 2000 series for online detection of water in oils. Thi is particularly the case as an OEM sensor for condition monitoring.

Indeed, a water in oil sensor measures the water content relative to the saturation concentration (saturation point). Then, it transmits the saturation level as a 4 … 20 mA signal. As an alternative, the AS 1000 has two parameterizable switch outputs. These have been factory-set to switch at a saturation level of 60% (SP 2 – warning) and 80% (SP1 – alarm).

In addition, the AS 1000 measures the temperature of the fluid and also transmits this as a 4 ... 20 mA signal.

The AS 1000 water in oil monitor therefore enables hydraulic and lubrication oils to be monitored accurately, continuously and online.

Applications:

Applications for an AquaSensor AS 1000 water in oil sensor might include:

  • Mobile hydraulics
  • Hydraulic and lubrication systems in industry

Features:

  • Reliable on account of its compact, rugged design
  • A cost-effective water in oil measurement sensor, also for use in OEM applications
  • Not necessary to calibrate sensor to different types of oil
  • Pressure-resistant, even with pulsations
  • Also, a wide fluid temperature range
  • Early detection of water problems, thus preventing faults and unnecessary interruption to operations

 

For effective and accurate water in oil measurement that ensures optimal performance for your engine or hydraulic system, enquire about the AquaSensor AS1000 water in oil monitor today.

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FAQs

  • What differentiates the Aqua Sensor AS 2000 series from the Aqua Sensor AS 1000 series?

    The AS 2000 features the following over the AS 1000 series: a LED display/keypad, two analogue outputs, four easily adjustable switch outputs and a serial RS485 interface, which can be easily calibrated. This translates into a higher price tag than its predecessor.

    The latest version is also more reliable than before as a result of its compact and rugged design.

    Why does water move in and out of the sensor?

    Water movement in and out of the sensor is driven by water vapour pressure. The water vapour pressure of the water in the oil is confronted by the water vapour pressure of the water in the sensor. Water is moved into and out of the sensor until a pressure equilibrium is reached. If the equilibrium is disturbed by adding water (increasing the water vapour pressure of the oil) or drying the oil (decreasing the water vapour pressure), water again starts to move into or out of the sensor.  

    How does the sensor know a given oil’s saturation point?

    The addition of water to dry oil causes the water vapour pressure to increase until the oil is saturated with water. The point where oil cannot dissolve any more water is the saturation point and the corresponding pressure the saturated water vapour pressure. When this point is exceeded, free or emulsified water is the result.

    Although different oils can dissolve different amounts of water in ppm at the saturation point, the saturated water vapour pressure has the same value for all oil types at a given temperature. By definition, at this point the saturation level is 100%.

    What is the relation between water vapour pressure and saturation level?

    The AquaSensor measures the saturation level of oil by looking at the water vapour pressure. The simple relation between water vapour pressure and saturation level is:

    Is it better to measure the saturation level over ppm when using HYDAC’s Aqua Sensor AS 2000?

    Differences in fluid properties, including oil age, fluid type and additive levels make it challenging to determine harmful levels of water through Aqua Sensor AS 2000 ppm readings. For example, 300ppm in a synthetic ester would be ideal, but the same water content would have disasters consequences. 

    Furthermore, this gives only a quantitative measure and does not answer the question as to whether or not the water content is still acceptable. By contrast, the saturation level provides a clear indication of the fluid’s condition as it is directly related to the oil’s saturation concentration (saturation point).  

    What is the best saturation level in hydraulic and lubrication systems as measured by HYDAC’s Aqua Sensor?

    Water levels should remain well below the saturation point – as a guideline HYDAC recommends maintaining saturation levels below 45 per cent in all equipment. This is because the effects of free and emulsified water are more harmful than those of dissolved water. However, even water in solution can cause damage and therefore every reasonable effort should be made to keep saturation levels as low as possible. This is because there is no such thing as too little water.

    What is the relation between the saturation level and content in ppm as measured by HYDAC’s Aqua Sensor?

    A measured saturation level is equivalent, at a given temperature, to a certain water content in ppm. If the saturation curve of the fluid is known, the saturation level can be converted into a ppm value (contact HYDAC for further information). Such curves are rarely provided by oil suppliers because determination is laborious and there is no standardised procedure available. Furthermore, the saturation curve changes with the ageing of the oil and would only be valid for new oil. 

    What are the viscosity limits of fluid that the HYDAC Aqua Sensor can be exposed to?

    The viscosity range of fluid that the HYDAC Aqua Sensor can work with is specified in HYDAC’s datasheet. The general rule of thumb is that the Aqua Sensor does not have any viscosity limit from a measuring point of view. However, low viscosity oils provide for a higher response speed. This is because there is a quicker exchange of oil close to the sensor. Furthermore, high flow rates and high viscosity would cause too much mechanical pressure on the Aqua Sensor. 

    What fluids can the Aqua Sensor be exposed to?

    HYDAC’s Aqua Sensor can be exposed to all mineral-based oils, HFD, HETG, HEES and Skydrol (phosphate ester version) have been tested successfully (for other fluids contact HYDAC for more information). 

    What are some of the limitations of using the Aqua Sensor?

    The datasheet specifies a certain temperature range and maximum flow rate. Apart from that, the only systems in which the AquaSensor is of no use are those with a free water condition at all times (without any intention to change this condition) as they would display 100 per cent saturation at the time. Furthermore, the AquaSensor must not be used in water-based fluids such as oil in water emulsions (HFA), water in oil emulsions (HFB) or water glycol (HFC).

    What are the effects of high pressures and pressure fluctuations on Aqua Sensor measurement?

    One effect is that the amount of water an oil can dissolve is slightly pressure dependent. Another effect is a changing water absorbing capacity of the sensor itself. The total effect is however marginal at about 0,02 per cent FS/bar.

    What is the best location for installing HYDAC’s Aqua Sensor in a hydraulic/lubrication system?

    This depends on the application such as the sensor being placed downstream of a potential water source if the intent is to monitor a potential water leak source. 

    Generally speaking, the fluid should circulate freely around the sensor as increased flow increases the response speed. Therefore, it is advisable to install the sensor in the return line rather than the hydraulic tank. 

    What does the Aqua Sensor AS 1000 measure?

    HYDAC’s Aqua Sensor AS 1000 measures the water content relative to the saturation concentration (saturation point) and transmits the saturation level as a 4 ... 20 mA signal. It also measures the temperature of the fluid and transmits this as a 4 … 20 mA signal.  

    Why should I use the Aqua Sensor AS 1000?

    An advantage of using HYDAC’s Aqua Sensor AS 1000 is accurate, continuous and online monitoring of hydraulic and lubrication oils.

    Is the Aqua Sensor AS 1000 equipped with parameterisable switch outputs?

    HYDAC’s Aqua Sensor AS 1000 is equipped with two parameterisable switch outputs factory set to switch at a saturation level of 60 per cent (SP 2 - warning) and 80 per cent (SP1 - alarm). 

    What are the advantages of a Aqua Sensor AS 1000?

    In addition to having a wide fluid temperature range the sensor is cost effective, pressure-resistant even with pulsations, reliable due to its compact and rugged design, and not in need of calibration to different types of oil.

    The sensor’s ability to detect water contamination at an early stage prevents oxidation, hydrolysis, additive depletion, reduced lubricant film strength, corrosion and damage to components that can result in faults, failure and unnecessary interruptions to operation.

    What are the main causes for water ingression into the Aqua Sensor AS 1000?

    The main causes for water ingression into the Aqua Sensor AS 1000 are insufficient bearing sealing, precipitation, humidity, oil-refill (new oil), splash water, underwater applications and cleaning. 

    What applications are suitable for the Aqua Sensor AS 1000?

    Applications suited to HYDAC’s Aqua Sensor AS 1000 include mobile hydraulics and hydraulic and lubrication systems in industry.