Aquaflex NZ Staff provide a pool of knowledge which is a resource all users (current and future) can access to assist them in making the best use of their Aquaflex Systems.
Aquaflex NZ Staff have experience across a wide range of disciplines including environmental monitoring, irrigation management, telemetry systems, etc – across a broad range of applications.
Aquaflex NZ is a division of Streat Instrument Ltd and we work closely with farmers and growers in New Zealand on a daily basis to assist them with
the development of Aquaflex Irrigation Management (AIM) programs which have resulted in our clients achieving significant water and energy savings, increased crop yields and quality.
Aquaflex is a system for measuring soil moisture and temperature.
The Aquaflex soil moisture sensor features a long flexible sensor that measures the average soil moisture along its length and the soil temperature near one the end of the sensor.
An Aquaflex soil moisture sensor is buried in the soil and can be connected to a number of devices including:
The Aquaflex soil moisture sensor is a thin strap about 10 feet (3 meters) long and an inch wide.
Because Aquaflex has a long sensor and uses a relatively large sample size (6 litres), Aquaflex “Spatially Averages” localised moisture values resulting in reliable and repeatable results.
One of the biggest problems with most soil moisture sensors or monitoring devices is that they measure moisture in a very localized area. This is a problem because soil in inherently highly variable – both in texture and soil moisture.
Many factors affect the uniformity of soil moisture, including the uniformity of irrigation and rainfall, crop root distribution, microclimate and soil properties.
Averaging soil moisture measurement across a broader area provides a better indication of general trends in local soil moisture.
First, you bury one or more Aquaflex Soil Moisture Sensors in the soil. (e.g. horizontal in a root zone, curved around a tree root, or at an inclined angle to measure full rootzone depth).
You then access your Aquaflex Data (e.g. by downloading from an Aquaflex Smart Hub, or via your preferred Telemetry system) .
Then you observe the continuous Soil Moisture and Soil Temperature trends to determine when and how long to irrigate.
Target moisture set points (full and refill points) can also be added to the trend displays.
Unlike traditional probes, Aquaflex takes the average soil moisture and temperature measurement over a 3m sensor.
The Aquaflex sensor is very flexible allowing it to be placed in almost any position eg in an ‘S’ shape, ‘U’ shape, straight, curved, spiral etc.
In most soils and growing conditions, soil moisture and temperature vary dramatically, often over quite short periods of time. Continuous monitoring provides the full picture that shows just how widely and quickly these changes are taking place.
Continuous monitoring also removes the worries of missing key readings. You simply collect the information when it is convenient for you – without missing anything important that has occurred.
Aquaflex uses a unique technology to measure the dielectric constant of the soil. Since the soil dielectric is a moisture-dependent property, these measurements can be converted to accurate measurements of volumetric soil moisture (the amount of water in a given volume of soil).
Aquaflex uses signal processes which are similar – but superior – to time-domain reflectrometry (TDR).
Special processes have been developed that allow TDR-like measurements over a longer conductor and improve the correction of these values for soil temperature and salinity.
For agricultural soils measurements are normally accurate within two percent volumetric moisture, with a measurement repeatability of about 0.25 percent volumetric moisture, using standard calibrations. Soil specific local calibrations are easily made using the built in feature in the Aquaflex software.
Soil temperature measurements are accurate to within 0.9 degrees Fahrenheit (0.5 degrees Celsius).
Aquaflex precisely measures soil moisture levels from dry to saturation.
You simply dig a trench large enough for the Aquaflex soil moisture sensor, placing the soil on a polythene sheet or similar in the same order that it was
Place the Aquaflex sensor on its edge at the desired depth and replace the soil in the same order that it was removed and as near as possible to the same
density of the undisturbed soil.
Any stones that were removed should be replaced into the trench, although care needs to be taken not to place them directly on or beside the sensor.
For specific instructions and guidance please contact us at Aquaflex as correct installation is crucial to gaining informative and representative data.
Data can be retrieved from the Aquaflex Logging Sensor in three different ways:
The Aquaflex Sensor is a 3m long tape, 3mm thick and 28mm high.
The Electronics Block at one end of the Sensor is 135mm long by 75mm high and 30mm deep
Standard data cable lengths are 3m, 10m and 20m.
Depending on the configuration Aquaflex is usually solar powered with a back up battery.
The Logging Sensor is equipped with wrap-around memory, where the newest readings overwrite the oldest readings.
The data capacity depends on the frequency of measurements (sampling interval), when taking a reading every hour it can store data for up to 340 days.
Total system prices depend on cable lengths, number of sensors etc. A detailed quotation is available on request.
The sensor electronics (buried under the ground with the sensor cable) includes a device which measures the soil temperature. This temperature measurement is used to compensate the moisture measurement for differences in both the electronics and the soil itself at different temperatures.
Aquaflex determines moisture by measuring the time taken for a pulse to travel along its sensor cable.
It is well established (and backed up by our own careful measurements) that increasing the conductivity of the soil has two independent effects:
The Aquaflex sensor makes a measurement of the shape of the returned pulse and uses this to compensate the moisture measurement against errors caused by changes in soil conductivity.