Strawberries are big business in Queensland, Australia. Just north of Brisbane, on Australia's east coast, Queensland grows about 350hectares of strawberries each year, mainly along the coastal strip from Caboolture to Gympie.
The industry supplies fruit from about May to October when the warmer winter and spring conditions of coastal Queensland enable strawberry plants to grow and produce the fruit. Growing strawberries is popular in this area because quick returns can be made from small areas of land with relatively little capital investment. Most of the premium strawberry crop is grown for the metropolitan wholesale markets in Brisbane, Sydney, Melbourne and Adelaide, south of the prime growing areas.
New methods for new farm
One premium strawberry grower has recently established a new 200-acre farm for growing the berries in the semi-agricultural area known as Cabooltura. Strawberries are a high-risk crop, with very little room for error. The berries need to be monitored closely for the duration of the growing season and any problems need to be dealt with quickly. These monitoring duties apply especially to the water supply.
Craig Priestley, the ITT Fluid Technology account manager for Queensland said: "Through our dealer network, this farmer purchased 5SHE50250-220 Lowara pumps. They are 22kw units, equipped with Hydrovar control systems on a single base.“ Priestley notes that with the control panels, the pump and the base: "We have a pump set size of about 4meters by 3metres quite a substantial pump set.“
The water supply for the farm comes from a newly dug, dammed storage reservoir that is fed by a spring. Because of the digging and the fact that the farm land is under considerable construction, the water has mixed with acids within the soils, lowering ph level of the water. Over time, the slightly acidic level of the water will eventually neutralise. But for now, any water handling system must deal with varying levels of ph.
Priestley recalls that: "One of the major reasons we went with the Lowara product is because of the all 316 low-carbon stainless steel of the pumps. Because the ph level of the water will vary, if you use dissimilar metals in a pump, such as cast iron and galvanised pipe fittings, you can have a reaction to the water.“
Varied water demands
The water demands at the strawberry farm were very complex not the least because of the strawberry's lifecycle. Immediately upon planting, the strawberries initially require a large sum of water. This lasts for the entire length of their three week first growth stage. The strawberries receive their rations of water through two forms of irrigation. The first type of irrigation is an overhead style with impact sprinklers. Additionally, there is an irrigation process known as afertigation' which uses a drip tape underneath the strawberries. The water supply for the irrigation system has to be extremely reliable. Priestley says that "because of the excessive heat and erratic weather patterns in the growing area, if the farm gets a hot day, they'll need to be able to get water onto the actual leaves of the strawberry plant to take the heat stress away from the plant itself.“
The amoney berry'
In Australia, they call the strawberry the amoney berry'. The reason for this is that a fist-sized amount of strawberries consisting of about 10 to 12 premium strawberries, can cost between Aus$3to4 (approximately $1.50to$2.00US) For premium strawberries large unblemished berries the grower can get a market value price of between Aus$7 and 8 per kilo (2.2pounds).
However, if the product is stressed, which, according to Priestley happens 9 times out of 10 because of the lack of water or poor irrigation, the berries become classified as a aseconds' product.
These aseconds' get used in products such as strawberry jams and other products where the actual berry is not seen with the per kilo market price for the grower at about 80cents.
With that type of risk/reward scenario, it is understandable that with 200acres of strawberries under cultivation, a grower would want to have the most reliable pumping strategy that is right for the varied applications at the farm.
In addition to the irrigation, the Hydrovar-equipped Lowara pumps comprise the complete control plant for the whole 200acre farm. The pumps will service the wash-down service for the packing sheds as the procedure of picking takes place. Water is also needed for cooling the packing machines as well as washing down tractors and other farm implements.
Because the varied water flows required the use of variable frequency drives, the Hydrovar-controlled Lowara pumps were a perfect fit. Priestley notes that: "The customer specifically requested the technology of the Hydrovar because of its flexibility and it's reliability.“
The Hydrovar-equipped pumps start on less than one amp and also vary the voltage. This will allow the pump set to provide large energy savings. Priestley explains: "In an instance where the farm may not be irrigating, but instead, running a packing shed or wash down hoses for tractors, the pumps are only using the horsepower required for that duty point.“ Priestley continues, noting that: "This is instead of using six-speed, end-suction motor pumps where you would be using 22Kw on a single hose. With that approach, you may have all sorts of problems taking place, including water shock in the lines where you have cracking a splitting of the PVC lines. "Because the Hydrovar has a soft start/stop/stall application, you have none of the of potential problems that you would encounter with a with a large booster set.“
This Hydrovar-equipped Lowara pump set will also have the capability of hooking up an 8inch diesel drive end suction on the discharge line in order to provide irrigation water in the case of a power supply failure.
With the farm now beginning cultivation, the initial installation will consist of three Hydrovar-controlled Lowara pumps, with two additional pumps coming on line as the planting proceeds through the 200acres.
For more information, visit www.itt.com