PRODUCT
DEEP-ROOT MOISTURE RETENTIVE TECHNOLOGY
BENEFITS
The CTECH soil amending technology directly feeds the root
bowl, producing maximum efficiencies.
The CTECH Deep-Root dispenser “Pod” introduces moist
nutrient rich soil to the capillary root zone. Sub-surface deep
root irrigation has proven substantial water savings that can
average 40%+.
A limited water allocation of 100 hectares can now irrigate (say)
140 productive hectares.
The CTECH Deep-Root Dispenser Pod contains moisture
retentive elements that are ideal for sandy soils.
Improved zonal soil conditions increase both the yield and the
farm value.
A general improvement in crop condition does bring obvious
financial advantages to all.
SOIL AMENDMENT TECHNOLOGY OFFERS THE FOLLOWING
Advantaged Agronomy
Deep-root soil amendment
Deep-root nutrient distribution
Deep-root zonal irrigation
Close control on water usage
Moisture retentive materials
Controls sandy-soil water loss
Reduction in fertilizer usage
Cut pumping time by 70%
Electricity saving of 70%
Irrigation saving of 40%+
Labor saving of 20% (estimated)
Fast and easy installation
UV protected long lasting HDPE
Reduced surface salts buildup
Increased usable irrigation water of 40%
INSTALLATION PROCEDURE
A round hole 135mm x 350mm deep is punched into the soil approximately 200 / 300mm away on either side of the tree trunk or one per vine stem.
The interior of the dispenser pod typically “loaded” with 3.5liters of moisture retentive, organic and other slow-release soil enhancing materials and nutrients.
Once the dispenser pod has been suitably “loaded”, the pod is lowered into the hole and the soil is pushed firmly into place around the top flange of the pod.
The flexible feeder line containing the pressure compensating emitter (water volume controller) is connected to the dispenser pod inlet and the free end of the line is connected to the main incoming irrigation supply line.
The volume of water required to irrigate fills the dispenser pod, and the escaping water from within the pod enables a deep delivery of nutrients to the surrounding soils in the vicinity of the root bowl region.
DEVICE ASSEMBLY WITH COMPONENTS
The device is designed to be user friendly, easy and quick to install, taking a matter of minutes.
The top flange is connected to the dispenser pod with a special thread that allows for use in sandy environments. The top flange sets the depth once the pod is inserted into the prepared hole.
The spike assembly is easily removed or inserted, when removed, this gives direct deep-access to the root bowl region via the interior of the dispenser pod. This unique access capability enables additional slow release nutrients, Bio Char and other materials to be added at any time.
NB: It is also possible to remove the dispenser pod from the soil at any time for repositioning / recharging etc.
BOTTLE EXPLODED VIEW
The standard dispenser pod will hold 3.5 liters of nutrient and water retentive materials. The pod is split into a top and bottom half, this is so that the bottom section can be replaced with a longer section that will increase the internal volume of the pod if required. This additional length will also increase the depth to which the dispenser pod will enter the soil, accommodating trees of differing sizes, age, type and root configuration making the device compatible across a wide range of species and also soil conditions. The device is long lasting and hardy, it is designed for commercial use on farms or private homes.
ENTRAINMENT SPIKE FITTINGS
The entrainment spike has a quarter turn quick connect design in order to engage with the top flange. All the entrainment spike fittings are threaded for ease of assembly. HDPE is both durable and flexible and breakages are not expected with normal use.
A quarter turn of the entrainment spike fitting enables easy removal of the spike. This provides deep access to the dispenser pod interior and direct access to the root bowl region. Fresh nutrients can be added at any time (at will).
The entrainment spike is simply pushed back into the pod and a quarter turn relocates this
SOIL AMENDMENT AND DEEP-ROOT IRRIGATION
The CTECH deep-root soil amending irrigation system will save 40% of the water now so critical to
the survival of many farms, one example being the San Joaquin Valley farms.
California produces:
80%+ of all stone fruit
70% of all peaches
95% of all plums
99% of all nectarines / also produces apples, berries, and avocados.
Aquifer depletion will reduce productive acreage by an estimated One-million Acres in the future.
NB: The introduction of the water-wise CTECH soil amendment system will save 400,000 acres, cut
pumping time by 70%, cut electricity use by 70% and greatly improve yields in the valley.
GENERAL INFORMATION
Innovation and effective differentiation each create unique opportunities to dominate opposing competition in a stagnant market where all companies in the sector have nothing new to offer and mostly compete on price and service alone.
The CTECH deep-root soil amending device produces enhanced financial returns that quickly pay back the initial investment.
The CTECH deep-root soil amending system is able to utilize virgin or reconstituted UV resistant HDPE or Polypropylene plastic and can include Biodegradable plastic components, some components have an expected lifespan of 20+ years with reasonable use. Deep-root zonal irrigation is an extremely efficient water and nutrient delivery system for irrigating orchards and vineyards.
Under certain circumstances, water savings as high as 40%+ are achievable (conservative).
NB: The guaranteed key to putting water back into the aquafer is to “take less out”. The CTECH system provides high-value soil enhancing moisture retention elements that will reconstitute sandy, dry or arid regions typically found in Saudi, Israel, and the entire Middle East Region – as just one example.
Spain, Italy and Greece have also suffered crippling draught in recent years, the Californian San Joaquin Valley Basin has also suffered recent draught conditions.
Sub-surface low pressure deep-root zonal irrigation enables the farmer to closely control the volume of water and specifically control any water bourn nutrients that are going directly to the root bowl.
This predetermined “balanced delivery cycle” ensures the best return on investment. The CTECH deep-root technology creates optimal efficiency for growth, good plant health and maximum returns from the orchard or vineyard.
The CTECH deep-root technology also offers additional advantages where every tree / vine can receive specific water and nutrient rationing by volume – one tree or vine potentially differing from the next according to requirements – off a single main supply line. Importantly, due to the “best use” scenario, there will be a reduction in the volume of expensive
nutrients being required.
NB: The interior space within the sub-surface dispenser pod is easily accessible from the surface giving physical access to the root bowl region whereby any advantageous materials can be added as and when required.
Water is an undoubted precious resource with many countries investing in technologies that enable water conservation, water recycling and even the very costly process of water production. The value of water is especially appreciated in regions where draught or dry sandy soils predominate. CTECH offers deep-root moisture retention technology via the introduction of nutrient-rich moisture retentive elements and materials contained within the sub-surface dispenser pod. These beneficial moisture retentive materials are then positioned in the vicinity of the root bowl.
The technology resolves a number of “best practice wants” that until now have not been fully realized. This is especially applicable to water-wasteful sandy soils (e.g. desert soils) that present poor moisture retention.
Governments from affected countries are investing large sums in new technologies that are aimed at saving water, recycling water and even producing water. One such example being Israel where 87% of all sewerage generated water is recycled for use in high yielding agriculture. Israel has five reverse-osmosis desalination plants producing 85% of their tap water sourced straight out of the Mediterranean sea.
Poor soil conditions within the Middle Eastern region is especially difficult to manage, farmers are adding clay to the soil in an effort to better retain irrigation water near the surface and reduce the losses due to drainage – (done at great cost).
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