More Related Content
Similar to Waterwise Garden Irrigator Program - Australia
Similar to Waterwise Garden Irrigator Program - Australia (20)
Waterwise Garden Irrigator Program - Australia
- 2. SECTION 1 – SMART APPROVED WATERMARK
PRODUCTS
The Smart Approved Watermark was established by four associations, the
Australian Water Association, Irrigation Australia Ltd, the Nursery and Garden
Industry Australia and the Water Services Association of Australia. It is a
labelling scheme to promote Water-Saving Products and Services to reduce
water use around the home.
Preference in product selection should be given to those products which have
been granted ‘SMART APPROVED WATERMARK CERTIFICATION’ (SAWM).
These products, when installed and operated to the manufacturer’s
specification, have been demonstrated to offer significant water-savings.
There are more products being certified on a regular basis so periodic
reference to www.smartwatermark.info will keep members up to date with
products certified.
Irrigation products certified as SAWM as at 20 February 2007 are shown on the
following page.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 2
© Irrigation Australia
- 3. FIGURE 1.1 – Smart Approved Watermark Products
DRIP IRRIGATION
Manufacturer/Licensee Product Name
Toro Australia Drip-Eze
Netafim Australia Miniscape Dripline
Netafim Australia Techline and Scapeline Driplines
RAIN SENSORS
Manufacturer/Licensee Product Name
Better Watering solutions Aquamiser
Holman Industries Holman Rain Switch
Hunter Industries Hunter Mini-Clik
Hunter Industries Hunter Rain-Clik
Hunter Industries Hunter WRC-INT
Toro Australia Irritrol Systems Rainsensor
Toro Australia Irritrol Systems Wireless Rainsensor
HR Products Orbit Rain Sensor
Rain Bird Corporation Rain Sensing Device
Toro Australia Toro Wired Rain Sensor
Toro Australia Toro Wireless Rain Sensor
Toro Australia Toro Wireless Rain/Freeze Sensor
SOIL MOISTURE MONITORS
Manufacturer/Licensee Product Name
Agrilink Holdings Aquablu
Measurement Engineering Australia GB Switch
HR Products Irrometer Watermark
Watermatic Controls Watermatic and Watermatic Technology
Holman Industries WaterSmart Soil Moisture Irrigation
Control System
SPRINKLER SYSTEMS
Manufacturer/Licensee Product Name
Nelson Irrigation Corporation of MP Rotator
Australia
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 3
© Irrigation Australia
- 4. SECTION 2 – MAINS WATER CONNECTION
The mains connection must be completed by either a licensed plumber or by
someone with a qualification recognised by the Plumbers Licensing Board, as
being capable of supplying and installing connections to the mains water supply
under the Australian National Plumbing and Drainage Code AS 3500.4.2 1998.
The mains connection must comprise (assuming connection is to be made into
copper pipe):
• A brass tee is to be braised in the appropriate manner to the existing
copper cold water pipe after the water meter. This tee off-take shall
have a 20mm tube-bush installed horizontal to the surface 150mm below
grade.
• A tested approved (AS 1628) brass gate valve or lever action ball valve
shall be connected to the 20mm tube-bush with Teflon thread tape or
thread paste applied to prevent leakage. This enables isolation of the
irrigation system without having to shut off the water supply to the home.
• An approved, tested and stamped dual check backflow prevention device
shall be connected to the isolation valve using a ‘stamped’ DR brass
nipple. The installation of this device is mandatory whether or not the
water meter to the home is already fitted with such a device. Where the
irrigation system is to have any device installed to enable the injection of
ANY chemical, or fertiliser, a testable Reduced Pressure Zone (RPZ)
Backflow Prevention device must be installed by a person with the
appropriate license to do so.
• A tested approved 25mm master automatic solenoid valve shall be
connected to the brass gate valve/ball valve by a 25mm BSP ‘stamped’ DR
brass nipple with Teflon thread tape or thread paste to prevent leakage.
• All below ground components must be housed in an appropriate sized
valve box (or boxes) to allow easy future access and maintenance. A
valve box (or boxes) of appropriate size to allow a minimum clearance of
50mm between the valves and the sides of the valve box or boxes is
required.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 4
© Irrigation Australia
- 5. FIGURE 2.1 - Typical Connection to Mains Water Supply
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 5
© Irrigation Australia
- 6. SECTION 3 - MAINLINE
The mainline provides water from the mains water connection to the sectional
automatic control valves.
The mainline of an automatic irrigation system must have the following
standards:
• It must be a minimum of PN9 uPVC solvent weld joint pipe manufactured
to current Australia Standard AS 1477 or minimum PN8 blue-line metric
polyethylene pipe to AS 4130.
• Fittings must be a minimum of PN18 uPVC solvent weld fittings to
current Australian Standard AS 1477 2006 or Schedule 40 US Standard
ASTM D 2466 or poly fittings to AS 4129.
• It must be buried with at least 150 mm of soil cover over the top of the
pipe and fittings.
• The fittings at changes of direction must not be installed with any stress
on the pipe or fittings meaning a 90 degree elbow must have the two
pipes entering and leaving the fitting at 90 degrees.
• No uPVC mainline pipe or fitting is to be exposed to direct sunlight
without protection by an approved water based UV inhibiting paint.
• The trench in which the mainline is installed must have a smooth sandy
bottom free of rocks, building rubble or anything which may damage the
pipe or fittings.
• Backfill material must not contain any rocks or building rubble which may
damage the pipe or fittings.
• Solvent cement approved by the PVC pipe and fitting manufacturers shall
be used on all PVC slip joints. There should be no evidence of ‘puddling’
of solvent on pipe or fittings as this leads to joint weakness and eventual
failure of the joint.
• All solvent weld joints are to be primed first using a primer approved by
the pipe and fitting manufacturer.
• All threaded fittings should be sealed with Teflon tape or jointing
compound made expressly for this purpose.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 6
© Irrigation Australia
- 7. SECTION 4 – CONTROL VALVES
The sectional automatic control valves turn sections of irrigation on and off and
provide a way of dividing the irrigation system into manageable sections to allow
them to operate from the water supply available.
The control valves must comply with the following:
• Control valves must be of quality manufacture and must have a minimum
tested pressure rating of 1,000kPa.
• They can be constructed of any approved material including PVC, brass
and glass filled nylon.
• They must have BSP threads of sufficient length to allow full engagement
of a standard Australian manufactured uPVC class 18 valve socket of the
same nominal diameter as the auto valve inlet and outlet.
• Solvent weld type (commonly referred to as ‘slip’) auto solenoid valves
may be used. It is important that with ‘slip’ type valves, the correct
amount of solvent be used as excess solvent can cause the faulty
operation of the valve.
• ALL solenoid valves must be fitted with a minimum of 150 mm of straight
pipe on each side of the valve.
• Each control valve must be housed in a valve box of appropriate
dimension to allow 50mm of clearance between any part of the valve and
the side of the valve box. Each valve box should have a close fitting lid to
seal it from ingress of sand and other debris but should allow easy access
for maintenance purposes. The top of the valve box should be set flush
with the lowest cut level of turf grass, if it is installed in a lawn area, or
with the top of the mulch if installed in a garden bed. No valve box is to
be installed with its top below grade.
• Solenoid actuated control valves shall be installed with the solenoid in the
vertical position.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 7
© Irrigation Australia
- 8. FIGURE 4.1 - Typical Solenoid Valve Assembly
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 8
© Irrigation Australia
- 9. SECTION 5 – CONTROL WIRING
The control wiring connects the auto control valves to the controller and
facilitates the automatic operation of the irrigation system.
The requirements of the control wiring are:
• All wires, active and common, must be a MINIMUM of 0.5mm2 multi-
strand cable in poly or PVC sheathing. For single cable and single valve
operating circuits, run lengths must not exceed controller and valve
manufacturers’ recommendations for voltage drop requirements.
As a rule the following guidelines apply in domestic applications:
• Run lengths in excess of 120 metres should use MINIMUM cable sizing as
follows;
o 120 metres – 180 metres: 1.0 mm2 multi-strand cable
COMMON, 0.5mm2 multi-strand cable ACTIVE.
o 180 metres – 300 metres: 1.0 mm2 multi-strand cable
COMMON, 1.0mm2 multi-strand cable ACTIVE.
• BLACK coloured sheathed cable must only be used for COMMON cables
and all common cable must have black coloured sheathing.
• Master solenoid (or pump-start) ‘active’ cable shall be RED.
• Spare ‘active’ wires shall be WHITE. At least one spare white sheathed
cable should be run from the controller to each end of the mainline and
terminated in a 300 mm loop and a gel filled joiner terminating each in the
furthest valve boxes.
• Active cables shall be in coloured sheath in colours other than RED,
BLACK or WHITE.
• There should be no cable joints of any active cables (other than to
connect to multi-core cable - see below) and they should be continuous
runs only. Any connections to the ‘common’ cable are to be made within
valve-boxes only.
• Multi-core cable may be used for controller ‘drop-out’ for connection to
solenoid cables. This cable should be of no smaller gauge than the cable
used in the system. Any connection of cables MUST be made within a
readily accessible valve box with its lid at ‘grade’.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 9
© Irrigation Australia
- 10. • All solenoid cabling must be laid with the mainline and must be taped
together in a bundle at 1.5 metre intervals.
• The bundled low voltage cable is to be taped to the under-side of the
mainline at 2 metre intervals and at every change of direction.
• Where low voltage cables are to run away from the mainline, they must
be housed in approved electrical conduit buried at 200mm minimum
cover or securely attached to the wall or fence etc. Where cables are to
run up a cavity or double brick wall they must run inside the cavity, not
up the outside in conduit.
• A minimum of 300mm loop of solenoid cable is required at each auto
solenoid control valve box to allow removal of the coil or valve without
having to cut the wires. Sufficient cable on the power supply side of the
cable joints must enable a coil to be replaced by reconnecting the coil
with the cable joints above ground level, out of the valve box. This loop
of cable should be neatly secured by electrical tape or cable ‘tie’.
• Where two valves or more are to run as one station individual ‘active’
cables from each are to run to the controller and connected to the
appropriate terminal at the controller and NOT joined in the field.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 10
© Irrigation Australia
- 11. SECTION 6 - CABLE CONNECTIONS
Connections are required in low voltage cables to allow the controller to
provide power to the control valves in the field. Failure to ensure appropriate
connection to solenoid control cables is a major cause of system failure.
Modern day solid state electronic controllers can be susceptible to short
circuits and voltage loss means that these cable connections are important. The
installation of secure, quality joints is vitally important.
The requirements for these joints are:
• There should only be cable joints located at each auto control valve
inside the valve box and at the controller drop out connection adjacent
to the controller (also in a valve box). Joining of wires in the field is not
permitted.
• Cable joiners must be of the gel filled type with provision for screwing
the wires in or securing them inside the joiner in some way. They must
be gel filled with provision for the gel to seal the entrance to the joiner as
it is made to ensure no ingress of moisture into the joint.
• Where soldered joints are used they must be waterproofed with
appropriately installed resin-filled heat-shrink material.
• Twisted wires and insulation tape or crimps and tape are not allowed for
joints.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 11
© Irrigation Australia
- 12. FIGURE 6.1 - Solenoid Cable Connection
- Using Scotchlock™ Gel-Filled Ulg/Ual Waterproof Connector
(Using 0.5mm2 solenoid cable to valve)
The inclusion of instructions for the use of this cable connector is not a specific
recommendation or endorsement of the use of this product but is an aid for
appropriate installation of it when it IS used. This particular product is suitable ONLY
for use with 0.5mm2 solenoid control cable from the controller.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 12
© Irrigation Australia
- 13. SECTION 7 - GARDEN BED IRRIGATION
This section covers the use of two irrigation techniques for the irrigation of
garden beds: DRIP and SPRAY
For either of these two irrigation techniques the use of low density (LD)
polyethylene pipe with a manufacturer’s minimum rating of 300kPa operating
pressure will be acceptable for use in LATERAL LINES*.
*LATERAL LINES are the pipes from the valves/solenoid valves attached to the
mainline which convey water to the spray or drip emitters.
The use of LD poly laterals for the installation of garden bed stations, as
opposed to higher pressure rated pipe demanded for mainlines and lawn
stations, is acceptable for two reasons:
• Garden bed stations utilising micro irrigation products are generally
operated at lower pressure than lawn stations. The use of LD poly is
acceptable in garden bed watering systems with an operating pressure of
250kPa or less. Where operating pressures are higher than this the
requirements for such installation will be as for turf, i.e. PVC pipe and
fittings to appropriate standards.
• Garden bed layouts are often less regular and frequently narrower than
lawn areas. For these reasons, and also for the fact that plants can grow
and ‘shadow’ output from sprays, these sections often require significantly
greater numbers of lower radius-of-throw sprinklers.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 13
© Irrigation Australia
- 14. 7.1 DRIP IRRIGATION IN GARDEN BEDS
These systems include those that use products commonly referred to as ‘drip-
line’ (which have drippers at regular intervals along the tube) and those which
have individual drippers at each plant.
This document principally relates to irrigation systems attached to the mains water
supply which can always be considered as appropriate for any irrigation regime.
When considering the use of bore-water for any drip irrigation system it is always
recommended that an analysis is made of a water sample from the bore prior to
installation of such a system. Bore water in many areas of the South-West of WA
contain concentrations of dissolved iron which, when oxidised, can clog drip emitters
over time. Manufacturers do not recommend the use of drip irrigation where the
levels of dissolved iron exceed 0.5 parts per million. Some high output drippers,
however, may be used with higher levels than this- refer to manufacturers for their
recommendations.
Many of these systems are commonly referred to as SUB-SURFACE irrigation.
Reference is made herein to SUB-SURFACE and to SUB-MULCH irrigation.
The distinction made between the two is that SUB-SURFACE irrigation involves
the installation of drip-line BELOW ground level (e.g. under turf). SUB-MULCH
irrigation, as the name suggests, involves the installation of drip-line ABOVE
ground but covered in a layer of mulch.
Drip-line buried below ground has a greater likelihood that roots may grow
into drippers and clog them than does such tube placed above-ground and
mulched. Manufacturers of drip-line therefore recommend that any truly ‘SUB-
SURFACE’ system be fitted with the means to dose a root-intrusion inhibiting
chemical (such as Treflan™) into the system to prevent such from occurring.
Where ANY chemical is dosed into a system connected to the mains water
supply an RPZ Backflow Prevention device has to be installed at this point of
connection.
The cost of such a device usually precludes the installation of such a system, due
to its cost, and therefore the installation of SUB-MULCH DRIP IRRIGATION in
garden beds is recommended. Sub-surface irrigation system layouts are
covered in the section on SUB-SURFACE IRRIGATION IN TURF. If required,
the same system layout can be used in garden beds (with the appropriate means
to prevent root-intrusion and with the appropriate backflow prevention).
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 14
© Irrigation Australia
- 15. SUB-MULCH DRIP IN GARDEN BEDS
Sub-mulch drip systems in garden beds, when installed and scheduled
appropriately, offer us significant water saving potential when compared to most
sprinkler systems and are recommended, in almost all situations, in
preference to spray systems.
This type of system must include the following:
• Mains water connection, mainline, control valves, cable connections and
valve boxes as per sprinkler systems.
• All lateral lines are to be buried with minimum 150mm cover.
• Drippers must be located in a pattern suitable for the density of planting
and soil type used to ensure an adequate, even coverage of the planted
area. See recommended irrigation layout for different plantings densities
and species on pages 61 to 64.
• Each section of drippers must have a minimum of one 15 mm air vacuum
breaker located at the highest point of the section to allow air to enter
the system when water may run out of drippers at lower points which
might, otherwise, result in air being drawn in at drippers higher up the
line together with particulate material that could clog these drippers.
o Where there is more than one easily definable high point a
separate air vacuum breaker should be installed at each such point.
o Each vacuum breaker is to be installed ‘vertically’ and located with
its air ‘intake’ a minimum of 100mm from soil level.
o Each air vacuum breaker is to be housed with its lid level with
surrounding soil or mulch (if area is mulched). See Figure 7.1
Typical Air Vacuum Release Valve Assembly on page 59.
• The system must be fitted with an appropriately sized 120 mesh disc or
screen filter to remove any debris from the system upstream of the
drippers. (Standard ‘in-line’ filters sold by micro-irrigation product
manufacturers normally have a coarser filter screen than is appropriate.)
o The filter may be installed either following the solenoid valve
operating the drip station (where there is only one drip station) or
at the beginning of the irrigation system after the master solenoid
valve (where there is a more than one drip irrigation station in the
system.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 15
© Irrigation Australia
- 16. o Filters shall be installed either horizontally or ‘below’ the horizontal
so that, when they are dismantled for cleaning, debris does not fall
into the supply line.
o Filters should have 50mm clearance from soil level and 100mm
clearance from the side of valve box on the ‘opening’ side of the
filter.
• On ALL drip irrigation stations an approved automatic pressure
regulating valve (250kPa or 35 psi maximum) shall be installed to ensure
optimal pressure operation of each station. A ‘flow-control’ solenoid
valve is not an ‘automatic’ pressure regulating valve and is not, on its own,
appropriate for accurate pressure regulation.
o An automatic pressure regulating valve may be installed after the
solenoid valve controlling this station (and after the filter, if fitted
here).
o If ALL the stations are to be drip-irrigated and, assuming that one
automatic pressure-regulating valve will offer appropriate pressure
regulation to ALL stations then one such device may be installed
after the master solenoid valve and after the filter required for the
system.
o The pressure regulating valve must be sized to suit the flow rate of
the station or stations involved.
• Dripper stations must be on separate valves to sprinklers at all times.
• Low Density poly pipe shall be secured at all connections by ratchet
clamps or other device according to manufacturer’s specifications.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 16
© Irrigation Australia
- 17. FIGURE 7.1 – Typical Air Vacuum Release Valve Assembly
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 17
© Irrigation Australia
- 18. FIGURE 7.2 – Typical Headworks for Sub-Mulch Drip System
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 18
© Irrigation Australia
- 19. FIGURE 7.3 – Sub-Mulch Shrub Dripline Watering System for High
Density Plantings
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 19
© Irrigation Australia
- 20. FIGURE 7.4 – Sub-Mulch Shrub Dripline Watering System for Medium
Density Plantings
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 20
© Irrigation Australia
- 21. FIGURE 7.5 – Sub-Mulch Shrub Dripline Watering System for Low
Density Plantings
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 21
© Irrigation Australia
- 22. FIGURE 7.6 – Dripper Watering System for Low and Medium Density
Plantings
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 22
© Irrigation Australia
- 23. 7.2 SPRAY IRRIGATION IN GARDEN BEDS
The sprinklers are the outlet points of the system emitting water to the
irrigated area and providing even and efficient irrigation to the landscape.
Sprinklers must comply with the following:
• All sprinklers must be installed at a spacing of no more than the published
radius of the nozzle at the recommended operating pressure of the
sprinkler.
• Part-circle sprinklers are to be used where possible to minimise wasteful
overspray.
• All sprinkler nozzles must have matched precipitation rate with halves
using half the flow of fulls, quarters a quarter of fulls etc.
• All sprinklers in garden areas must have pop up heights suitable for the
planting in which they are installed or shrub adapters installed on fixed
poly risers above the planting such that there should be minimal
‘shadowing’ of plants at their expected mature height (see Figure 7.7
Garden Bed Spray Systems – Sprinkler Height page 66). Where this is
impractical a drip system is usually a more water-efficient means of
delivering water where it is required and in precise quantity.
• In narrow garden beds less than 3 metres wide irrigation may be carried
out from one side of the garden bed. This may be done only with
sprinklers with a radius of throw of between 1/4 and 1/3 greater than the
width of the bed providing that any overspray is against a solid object
such as a fence or on to a turfed area. Sprinkler spacing shall be no more
than the radius of throw of each sprinkler (see Figure 7.8 Garden Beds
Spray Systems – Narrow Strip Beds page 67).
• Microsprays and shrub sprays may be installed on the same station where
the pressure requirements and the precipitation rates are similar.
• Where microsprays are installed on 4mm rigid poly risers each riser shall
be staked with a stake made for this purpose and of a length and type
appropriate to maintain the riser in a vertical position in the soil type in
which they are installed. Alternatively, microsprays can be installed on
fixed poly stakes with 4mm feed tube attached to the poly lateral.
• All lateral lines shall be installed with a minimum of 150mm cover.
• Sprays and drippers shall not be used on the same station.
• Garden bed stations shall be watered independently of lawn stations.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 23
© Irrigation Australia
- 24. • All pop-up sprinklers are to be installed on either fixed or articulated
‘swing-joint’ risers. See Figure 8.4 Articulated (or ‘swing joint’) Riser,
page 75. Swing joint risers enable sprinklers to be adjusted to the
correct height following system installation and at any time in the future
(such as following top-dressing of the lawn). Risers that are made of
polyethylene do not require sealing with Teflon tape as they are made of
a soft enough compound to be self-sealing when appropriately tightened.
• Sprinklers must pop up to a height to allow unobstructed irrigation of
plants within the bed. Each pop-up sprinkler should be placed with its
top at, or above, ground level (or mulch level, if mulched) as, if placed too
low, the pop-up riser scrapes against the soil thus causing unnecessary
wear and possible sticking.
• Low Density poly pipe shall be secured at all connections by ratchet
clamps or other device according to manufacturer’s specifications.
FIGURE 7.7 – Garden Beds Spray Systems – Sprinkler Height
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 24
© Irrigation Australia
- 25. FIGURE 7.8 – Garden Beds Spray Systems – Narrow Strip Beds
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 25
© Irrigation Australia
- 26. SECTION 8 - TURF IRRIGATION
This specification considers Sub-Surface Drip Irrigation and Sprinkler Irrigation
of turf.
8.1 SUB-SURFACE DRIP IN TURF
The design and installation of sub-surface irrigation systems for the irrigation of
lawn areas is an unforgiving science and must be carried out correctly to ensure
a water-efficient and durable outcome.
As these systems operate under turf grass species, root intrusion has been
identified by manufacturers as a prime cause of drip blockage, so root-intrusion
herbicide impregnated drippers or root-intrusion chemical injection systems to
prevent root-intrusion are required to be installed. As soon as ANY chemical
(including fertiliser) is injected into a system operated from mains water supply
it is then categorized as HIGH HAZARD with regards to the possible
contamination of the mains water supply, so extra precautions are mandatory in
law.
The essentials are:
• Means to protect the system from root-intrusion as detailed above.
• An approved, correctly designed, specified and installed RPZ (reduced
pressure zone) backflow prevention device must be installed on these
systems. This device must be installed by a specialist qualified to install
these valves and must be tested annually by a qualified service contractor
in compliance with the current Plumbing Code.
• The other requirements as detailed under sub-mulch drip system also
apply to these systems including requirement for the installation of;
o Air Vacuum Breaker
o 120 mesh filtration
o Auto Pressure Regulator
o The use of a collector main as well as a distributor main is
recommended in all dripline systems but is definitely required in all
true SUB-SURFACE systems. These collector and distributor
mains can be poly pipe or PVC pipe (the latter with dripline
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 26
© Irrigation Australia
- 27. connections using grommets and ‘take-offs’). These pipes should
be buried with 150mm cover.
• An automatic line flushing valve is to be installed at the furthest point
from the valve on the collector main to enable an amount of water
(together with any sediment or other particulate material in the lines) to
be flushed out at the beginning of every watering;
o This valve is to be installed so that water can easily be flushed out
(i.e. the discharge point in the same plane as the pipe leading to it).
o Each flushing valve should be placed in a valve box with its lid flush
with lowest cut-turf level.
o Below each valve there should be a minimum volume of free
draining material 0.3 metre cubed.
o Such material may be gravel, blue metal or coarse sand.
o The lowest discharge point of the valve should have a minimum of
50mm clearance from this material.
• Low Density poly pipe shall be secured at all connections by ratchet
clamps or other device according to manufacturer’s specifications.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 27
© Irrigation Australia
- 28. FIGURE 8.1 – Typical Headworks for Sub-Surface Drip System
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 28
© Irrigation Australia
- 29. FIGURE 8.2 – Typical Line Flushing Valve Assembly
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 29
© Irrigation Australia
- 30. FIGURE 8.3 – Typical Sub-Surface Drip System
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 30
© Irrigation Australia
- 31. 8.2 SPRINKLER SYSTEMS IN TURF
Lateral pipework connects the automatic control valves to the sprinklers in the
turf areas being irrigated.
As turf sprinklers generally require higher operating pressures than garden
sprays and drip systems, lateral lines in turf are defined as:
• It must be a minimum of PN9 uPVC solvent weld joint pipe manufactured
to current Australia Standard AS 1477 or minimum PN8 blue-line metric
polyethylene pipe to AS 4130.
• Fittings must be a minimum of PN12 uPVC solvent weld fittings to
current Australian Standard AS 1477 or Schedule 40 US Standard ASTM
D 2466 or poly fittings to AS 4129.
• It must be buried with at least 150 mm of soil cover over the top of the
pipe and fittings.
• The fittings at changes of direction must not be installed with any stress
on the pipe or fittings, meaning a 90 degree elbow must have the two
pipes entering and leaving the fitting at 90 degrees.
• All threaded fittings (other than those on poly risers) should be sealed
with Teflon tape or Jointing compound made expressly for this purpose.
• No uPVC lateral pipe or fitting is to be exposed to direct sunlight without
protection by an approved water based UV inhibiting paint.
• The trench in which the lateral pipework is installed must have a smooth
sandy bottom free of rocks, building rubble or anything which may
damage the pipe or fittings.
• Backfill material must not contain any rocks or building rubble which may
damage the pipe or fittings.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 31
© Irrigation Australia
- 32. SPRINKLERS IN TURF AREAS
The sprinklers are the outlet point of the system emitting water to the irrigated
area and providing even and efficient irrigation to the landscape.
Sprinklers must comply with the following:
• All sprinklers must be installed at spacing no greater than the
manufacturer’s published radius of throw of each nozzle and should
operate at the manufacturer’s recommended operating pressure.
• All sprinkler nozzles must be matched precipitation rate halves using half
the flow of fulls, quarters a quarter of fulls, etc. Different sprinkler types
(with different precipitation rates), e.g. fixed spray pop-up sprinklers and
gear-drive sprinklers, should not be operated on the same station.
• Part-circle sprinklers are to be used wherever possible to minimise
wasteful overspray.
• All sprinklers in turf areas should be pop-ups with a suitable pop up
height capable of clearing the grass in which they are installed. The
minimum pop up height is 80 mm.
• Turf and garden areas must always be installed on separate stations.
• All pop-up sprinklers are to be installed on either fixed or articulated
‘swing-joint’ risers. See Figure 8.4 Articulated (or ‘swing joint’) Riser,
page 75. Swing joint risers enable sprinklers to be adjusted to the
correct height following system installation and at any time in the future
(such as following top-dressing of the lawn). Risers that are made of
polyethylene do not require sealing with Teflon tape as they are made of
a soft enough compound to be self-sealing when appropriately tightened.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 32
© Irrigation Australia
- 33. FIGURE 8.4 – Articulated (or ‘swing-joint’) Riser
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 33
© Irrigation Australia
- 34. SECTION 9 - CONTROL SYSTEMS
There are many different irrigation controllers on the market many of which
provide an efficient way to automatically control a domestic irrigation system.
Controllers must comply with the following:
• Indoor type controllers without weather seals must be installed in a
protected location away from prevailing conditions such as wind-blown
rain and direct sunlight. Ideally they should be installed inside or, at the
very least, well under a carport where they are not directly exposed to
the weather.
• Any controller exposed to weather and located on the outside wall of
the house (or other exposed location) should be a controller
recommended by its manufacturer as appropriate for such installation and
fitted with a weatherproof, lockable cover and fitted with an internal
transformer. No controller should be installed where it is exposed to
direct sunlight in the hottest part of the day.
• Where a controller is to be ‘hard-wired’ (i.e. direct mains power
connection to the transformer) it must be installed by a licensed
tradesman qualified to make such installation.
• Control cable drop outs from controllers must be installed inside the
cavity of double brick walls and terminate in a valve box at ground level
outside the controller location. Conduits running down the wall are not
acceptable unless the wall is single brick where the conduit should be
installed on the inside of the wall.
• All controllers must have at least three fully independent programs to
enable independent programming of turf areas, garden sprays, drippers
and hanging baskets or other areas requiring different applications of
water.
• Controllers must have the means to be programmed to any possible
water restrictions’ regime. This means that they can be restricted to a
watering cycle on a specific day or days in the week rather than just on a
periodic interval.
• Controllers will have a dedicated sensor input for connection to a rain or
soil moisture sensor.
• A ‘Smart Approved Watermark’ automatic rain shut-off switch OR
automatic soil moisture sensing control system shall be fitted to EVERY
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 34
© Irrigation Australia
- 35. automatically controlled system and in accordance with the
manufacturer’s installation instructions;
o Rain sensors can be either the hard-wired type or wireless
depending on the location of the controller. The rain switch must
be installed in a location where a representative sample of rainfall
on the property will fall. They can be installed on a gutter but not
in a location where they will be shielded from rainfall or have
excess water drip into the switch. A rain switch should be set to
shut off the system following rain of no more than 8mm, this
amount being a ‘significant’ rainfall event.
• The controller will have a ‘water budgeting’ feature which will enable
‘global’ percentage variation of programmed run times according to
changing water requirements with prevailing climatic conditions.
• Many controllers require the installation of an alkaline or rechargeable
battery for the controller to retain programmed information in the event
of power outage. Where required the installer shall install such a battery
before the system is handed over to the client.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 35
© Irrigation Australia
- 36. SECTION 10 - SYSTEM HANDOVER
Once the installation is deemed to be complete the installer shall conduct a
handover with the client by demonstrating the operation of the system and
instructing the client on the programming of the irrigation controller.
10.1 CONTROLLER CARD
As part of the handover process the installer will complete the WGIP
Controller Card (refer to the Program Administrator for stock) and program
the controller as per the following illustrations on pages 81 and 82.
Once completed the controller card shall be affixed to the inside of the
controller door or in a position adjacent to the controller.
10.2 IRRIGATION PLAN
Within one month of the system handover the client must be given an accurate
‘as constructed’ plan of the irrigation system as installed. This plan must
include:
• It must be to scale.
• Pipe routes and sizes used.
• Sprinkler and valve locations.
• Sprinkler and nozzle performance data for all heads.
• Flow test results.
• Details of all symbols used on the plan.
10.3 WARRANTY
The installer shall warrant the system for a twelve (12) month period from the
date of handover against faulty workmanship and parts. This warranty shall be
presented to the client on submission of written quotation.
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 36
© Irrigation Australia
- 37. FIGURE 10.1 – Controller Card
_________
WaterwiseGarden Irrigator Program – Design Principles, Specifications and Guidelines 37
© Irrigation Australia
- 39. STANDARDS FOR DOMESTIC
IRRIGATION INSTALLATION
IRRIGATION AUSTRALIA LTD (WA REGION)
1 ACTIVITIES PRIOR TO COMMENCEMENT
Prior to commencement of a domestic irrigation installation, the Irrigation Contractor shall:
1.1 Conduct a flow test, using a ‘Flow and Pressure Testing device’ and record the flow/s
at the appropriate pressure/s recommended by the manufacturers of the components
of the irrigation system.
1.2 Present to the Client a written quotation detailing all works and activities that will be
conducted.
1.3 Present the client with a design of the proposed irrigation system.
2 SYSTEM DESIGN AND COMPONENTS
Irrigation system design and product selection shall comply with appropriate Australian
Codes and standards and conform to the manufacturer’s recommendations for the products
used. These include:
2.1 System design to be according to the flow test results in 1.1 (above) with individual
station demand (at the manufacturer’s recommended operating pressure) no greater
than the tested flow. Where station demand is less than the tested flow a pressure
regulating device/s must be installed where such is required to ensure operation to
manufacturers’ recommended operating pressure.
2.2 Pipe will be sized to ensure water velocity does not exceed 1.5 metres per second at
design flow.
2.3 Sprinklers shall be spaced at no more than the radius of throw specified by the
manufacturer’s recommendations.
2.4 Sprinklers shall operate at the manufacturer’s recommended operating pressure.
2.5 Mainlines shall be minimum PN9 PVC, PN8 polyethylene or other appropriate
material of no lesser pressure rating; pipe under live mains pressure should be
minimum PN12 rating or as otherwise specified by Water Corporation regulations.
2.6 Valves under live mains pressure shall be Water Corporation approved ‘tested’
valves.
2.7 Sprinklers on any station shall be fitted with matched precipitation nozzles.
© Irrigation Australia
- 40. 2.8 Part-Circle Sprinklers shall be used in locations where they will prevent wasteful
overspray.
2.9 Where an irrigation controller is installed to operate stations of different water
requirements it shall be a minimum three-program controller and must be
programmable to comply with Water Corporation and Department of Water
guidelines or restrictions.
3 INSTALLATION OF THE SYSTEM
The installation of the irrigation system shall be conducted to meet the requirements of
applicable statutory regulations, including backflow prevention.
3.1 The Client shall be advised of all installation work that, as a requirement of law, will
be completed by a licensed tradesperson.
3.2 Master solenoid valves shall be used when connecting to scheme water supply and
when installing more than two station valves.
3.3 Solenoid wires shall be buried under pipework. Where wires do not run with such
pipework they should be placed in electrical conduit.
3.4 A colour code for solenoid wires shall be used, black for “Common” wires, red for
‘Master Valve’ control wires and white for ‘spare’ wires. Spare wires shall be taped
(or otherwise waterproofed) at their field termination point. Station valves shall be
installed with cable colours other than those listed. Wire from each valve to the
controller shall be one single colour.
3.5 Solenoid wire connections shall be made only at valve boxes and a minimum 300mm
loop of wire left at each valve for ease of service.
3.6 Solenoid wire connections shall be either crimped or soldered and covered with
heatshrink material or made with gel-filled or silicone grease type electrical cable
connectors made for this purpose.
3.7 All pipework shall be buried other than where expressly stated.
3.8 Mainline and lateral piping shall be buried to the minimum recommended cover of 150
mm.
3.9 Low Density poly pipe shall be secured at all connections by ratchet clamps or other
device according to manufacturer’s specifications.
3.10 All valves shall be located in valve boxes designed for this purpose, the lid thereof to
be no higher than surrounding material.
© Irrigation Australia
- 41. 3.11 All systems shall have a minimum of 150 mm of pipe either side of valve to enable
service removal of valve and replacement without major disruption.
3.12 All irrigation stations should be established to water areas of similar demand
(hydrozones).
4 COMPLETION AND HANDOVER
4.1 At the completion of the work the site is to be left in neat and tidy state.
4.2 The Irrigation Contractor shall perform a system “hand-over”, including a working
demonstration of all functions of the irrigation controller. The installer is to install a
program (compliant with current Water Corporation and Department of Water
regulations and recommendations) and explain same to the client.
4.3 The Client shall be given a recommended watering schedule for peak demand, with
recommended seasonal reduction (as a percentage of maximum) detailing all stations
(with description of each) plus an estimated P.R. (Precipitation Rate) for each station.
4.4 If the installed controller requires a battery, a battery of the type recommended by
the manufacturer is to be supplied and installed by the Irrigation Contractor prior to
hand-over.
5 WARRANTY
5.1 The Irrigation Contractor to specify a minimum one-year warranty on all parts and
labour.
6 GENERAL
6.1 Where any variations from these standards have occurred the Irrigation Contractor
will provide detail of these, and the requirements for the changes, to the client as well
as a clear indication that such changes do not comply with the “Standards for
Domestic Irrigation Installation” of Irrigation Australia Ltd (WA Region).
© Irrigation Australia
- 42. Disclaimer:
The Standards for Domestic Irrigation Installation have been developed by members of Irrigation
Australia Ltd’s Western Australian region. These Standards have been designed for use in
Western Australia and are based on current knowledge and practice at the time of the
preparation of this material (October 2002, Revised 2007).
These Standards are issued as a guide only. Their use is of a voluntary nature and the IAL is not
liable for any loss, injury, damages, costs or other consequences of any kind that result from their
use. All persons conducting or procuring domestic irrigation installation should comply strictly
with the manufacturer’s recommendations for the use and installation of equipment. The IA
reserves the right to modify, add to or delete Standards prescribed herein at any time.
Copyright:
Irrigation Australia Ltd 2002, Revised 2007. This work is copyright. Apart from any use
permitted under Acts of Parliament, no part of these Standards may be reproduced without the
expressed written permission from Irrigation Australia Ltd.
Irrigation Australia Ltd
PO Box 1804
Hornsby Westfield NSW 1635
© Irrigation Australia