Posted on August 3, 2016


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If you're thinking of installing a new pump, or just want to understand your existing pumping system better, this tutorial should provide you with the information you need to get started. I strongly recommend you read the whole thing. Most of the questions I get asked are answered here, all you need to do is read the whole thing. Yep, I know it's a long read!

Irrigation Pumps & Alternate Water Sources Tutorial

Warning- don't make a major mistake!

After over 10 years of answering questions from this website I have identified 3 major errors people make in regards to irrigation pumps. All of these are VERY expensive errors to fix. So let's get you on the right track from the very beginning!

Plan First!

Do not buy a pump until you have designed your irrigation system!

Pump Labels:

Pump Names:

A number of catalogs, websites, and stores sell pumps that they call "irrigation" pumps. These are typically small, inexpensive pumps. The only reason I mention them is as a warning; I have seen very few pumps marketed under the name "irrigation pump" that are suitable for a typical sprinkler irrigation system with multiple sprinklers. Most of these pumps will run a single small sprinkler head on a hose, but not a sprinkler system. Typically pumps that are suitable for sprinkler systems are marketed under the label "high pressure pump".

Types of Pumps

Pumps commonly used for irrigation fall into the following categories based on the design of the pump. This tutorial addresses electric powered pumps only. While most of the information here also applies to fuel powered pumps the formulas don't! You must use different formulas for calculating the size and flow information for fuel powered pumps. If you have an engine powered pump (gas, diesel, propane, corn liquor, etc.) you should contact the pump manufacturer and request a copy of the pump performance curve. As a general rule, fuel powered pumps require more horsepower than electric pumps.

Displacement Pumps

Displacement pumps force the water to move by displacement (bet you couldn't have guessed!) This means pumps such as piston pumps, diaphragm pumps, roller-tubes, and rotary pumps. The old fashioned hand-pumps, the ones you operate by moving a long lever handle up and down, are piston displacement pumps. So are those grasshopper-like oil well pumps. Displacement pumps are used for moving very thick liquids, creating very precise flow volumes, or creating very high pressures. In addition to oil wells they are also used for fertilizer injectors, spray pumps, air compressors, and hydraulic systems for machinery. With the exception of fertilizer injectors (used for mixing fertilizer into irrigation water) you will not see them typically used for irrigation systems, so that is all I'm going to say about them.

 

Centrifugal Pumps.

Almost all irrigation pumps fall into this category.

End-Suction Centrifugal Pumps

The most common type of pump. Typically the pump is "close-coupled "to an electric motor, that is, the pump is mounted right on the end of the motor's drive shaft and the pump case is bolted straight into the motor so that it looks like a single unit. The water typically enters the pump through a "suction inlet "centered on one side of the pump, and exits at the top. Almost all portable pumps are end-suction centrifugal type pumps. If the pump isn't one of the next two types, then chances are it is an end-suction centrifugal. End-suction centrifugal pumps generally need to be primed the first time they are used (including many so-called self-priming models,) after that most will not require priming unless a leak develops in the intake pipe. If the pump needs to be primed each time it is turned on this almost always means there is a tiny leak in the intake pipe.

 

End-Suction Centrifugal are designed to push water, not pull it. They are great for use as irrigation booster pumps. They are also very good for pumping water from any source where the water level is higher than the pump, where the water can flow down an intake pipe to the pump using gravity. But any time they need to actually suck the water up into the pump they perform much less efficiently. Therefore end-suction centrifugal pumps are not the best choice for drawing water from a water source that is lower than the pump, ie; they are not good when mounted on the bank of a pond, stream, river, etc. When sucking water up into the pump they must be installed as close to the water surface level as possible, which is often inconvenient. Each pump is different, so check with the manufacturer to determine the maximum height the pump can be above the water surface. As a general rule they perform very poorly if they are more than 5 feet above the water surface. Just remember, end-suction centrifugal pumps are great at pushing water, but they suck at sucking it!

Submersible Pumps

Submersible pumps are installed completely underwater, including the motor. The pump consists of an electric motor and pump combined in a single unit. Typically the pump will be shaped like a long cylinder so that it can fit down inside of a well casing. Although most submersible pumps are designed to be installed in a well, many can also be laid on their side on the bottom of a lake or stream. Another common installation method for lakes and rivers is to mount the submersible pump underwater to the side of a pier pile (post). Submersible pumps don't need to be primed since they are already under water. They also tend to be more efficient because they only push the water, they don't need to suck water into them. Most submersible pumps must be installed in a special sleeve if they are not installed in a well, and sometimes they need a sleeve even when installed in a well. The sleeve forces water coming into the pump to flow over the surface of the pump motor to keep the motor cool. Without the sleeve the pump will burn up. Because the power cord runs down to the pump through the water it is very important that it be protected from accidental damage. You wouldn't want a boat tangled up in the cord or a snapping turtle or alligator to bite through it!

 

Turbines and Jet Pumps

A turbine pump is basically a centrifugal pump mounted underwater and attached by a shaft to a motor mounted above the water. The shaft usually extends down the center of a large pipe. The water is pumped up this pipe and exits directly under the motor. Turbine pumps are very efficient and are used primarily for larger pump applications. Often they consist of multiple stages, each stage is essentially another pump stacked on top of the one below. It works like a train with multiple engines hitched together pulling it, each stage would be a engine. Turbine pumps are typically the type of pumps you see on farms. When you see a huge motor mounted on its end and a pipe coming out sideways below the motor, that is most likely the motor for a turbine pump down inside the well. I use turbine pumps for large parks and golf courses where we are pumping from lakes. The turbine pump is mounted in a large concrete vault with a pipe connecting it to the lake. The water flows by gravity into the vault where it enters the pump. The pump motors are suspended over the vault on a frame. I usually use two or three different sized pumps side-by-side to handle different flow combinations. A jet pump is similar to a turbine pump but it works by redirecting water back down to the intake to help lift the water.

 

Booster Pumps

You're going to run into the term booster pump now and then as they are common in irrigation, so let's start by defining it. Most pumps are used to take water from a standing (or non-pressurized) source and move it to another location. For example, a pump might take water from a lake and move it to a sprinkler system. A booster pump, on the other hand, is used to increase the water pressure of water that is already on its way somewhere. Example; say you have a sprinkler system that needs 80 PSI of pressure to operate. But the water line coming onto your property only has 50 PSI of pressure. In this cases you would install a booster pump to raise the pressure from 50 PSI up to 80 PSI for your sprinkler system. So to put it another way, a booster pump is used to "boost "the water pressure. Any of the types of pumps listed below can be used as a booster pump, but almost all booster pumps are the "end-suction centrifugal "type. More on that later.

What is a Floating Pump?

A floating pump is simply a submersible pump or a turbine pump that is attached to the bottom of a float. The pump hangs below the float, and the float is anchored in a lake, pond, or river. A flexible pipe is used to take the water from the pump to the irrigation system. A floating pump is a good option to look into for installing a pump in a pond or lake. It is often much easier to install than a standard submersible, jet-pump, or turbine and is much more energy efficient than an end-suction centrifugal. Floating fountains and pond aerators are another utilization of floating pump technology.

Pressure vs. Flow

The performance of a pump varies depending on how much water the pump is moving and the pressure it is creating. This is an important relationship not only because it determines whether the pump is suitable for your irrigation system, but also because it is these pump characteristics which allow you to control the operation of your pump. More on controls later. For now, the primary relationship to understand is that as the flow INCREASES, the pressure DECREASES. Here are the standard formulas used to estimate flow, pressure, and horsepower for all electric pumps. Note: these formulas have been simplified to assume a pump efficiency of 55% which is a good average figure to work with if you don't know the exact efficiency of your pump. Pressure for pumps is always (in the U.S.A. that is!) measured in feet of head, one foot of head is equal to 0.433 pounds per square inch. The formula is:

 

 

 

Source: http://www.irrigationtutorials.com/pump.htm



Mosquitoes, tips to avoid them, especially in the garden

03-08-2016

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Source: http://www.gardentv.it/en/shownews/il-computer-in-giardino-irrigazione-automatica-per-lestate



Irrigation is the field in which Nicolai Officine Idromeccaniche has worked for the longest time and in which it can claim the most experience

At our facility you will find a complete range of irrigation possibilities, from those for residential use to agricultural; from irrigation on a small scale in gardens to that in sports facilities and from small gardening plots to those of a larger scale for parks and large scale cultivations

 

Our irrigation solutions include:

  • Systems for traditional irrigation;

  • Systems for underground irrigation;

  • Systems for drip irrigation;

  • Solutions for parks and gardens.

Whatever might be the client's need, the fundamental requirement for the construction of a good irrigation system is an appropriate plant design.

Based on the type of terrain, the dimensions, the type of soil and of any crops or plantings currently planted, it will be possible to plan a series of procedures so that the system put into place will offer the greatest effectiveness possible and will be reliable over time.

 

Indeed, it must be kept in mind that there are no irrigation systems that are absolutely the best, but that there are irrigation systems that are more or less suitable for a specific necessity.

 

These considerations are then to be made in light of a broader problem, which is that of conservation of a precious resource, as is water.  Choosing the proper system, optimising it for water consumption and avoiding waste, may mean then contributing to environmental protection.

 

Traditional irrigation:









Drip irrigation

  • Drip irrigation maintains the leaves dry, with improvement of the health of the plant.

  • Drip irrigation prevents the spread of weeds, normally present with traditional irrigation systems.

  • In most crops, drip irrigation avoids the waste of water owing to the lower rate of evaporation of water from the ground (as occurs with traditional methods).

  • There is no influence of the wind on the water distribution (one may practically use drip irrigation under nearly any weather conditions).

  • Drip irrigation may also be used for crops covered by plastic sheets and for potted plants.

  • Drip irrigation is one of the most effective systems for the nutrition of the plant: the greater density of roots in the area wetted by the drip units and the greater aeration of the soil insure fast absorption of the nutrient substances.

  • Drip irrigation enables several areas to be irrigated at the same time, without the need for high pressures or large quantities of water.

  • Drip irrigation is suitable even in sloped areas with difficult topographical features.

  • Finally, it is also possible to irrigate using water mixed with fertilisers. In this case we would be in the presence of fertirrigation.

Underground irrigation (or sub-irrigation)

Sub-irrigation

  1. High irrigation efficiency, extremely low loss levels due to percolation and the total absence of loss due to streaming and/or evaporation;
  2. Underground irrigation may be applied in any weather condition and at any time;
  3. Possibility of irrigating with modest volumes of water and at low operational pressures;
  4. High distribution uniformity of the water by way of the self compensating booms;
  5. Nutrient distribution near the root structure favouring healthy growth of the plants for an improved yield.
  • Inserted in the drip booms at the time of their manufacture;
  • Inserted in minuscule doses owing to an injection system for the product through special filtering devices (herbicide impregnated cartridges);
  • Or else, by way of washes with specific products.

Our staff is available for consultation and guidance toward solutions that suit your particular needs. Contact us for further information

Parks and gardens:

  • Once the system has been installed and the control unit programmed, watering is performed automatically, without the necessity of anyone doing anything.
  • Through the programming of the timer, it is possible to water the areas uniformly and without waste.
  • The many combinations and the possibility of customising the underground watering system make it possible to irrigate each zone of the garden or park with just the right quantity of water (that is, distinguish between areas with lots of sunlight from those in the shade, or different plant types with diverse watering needs).
  • From an aesthetic point of view, underground sprinkler systems are the least invasive, in that the sprinklers disappear after watering. The lawn, garden and the meadow are free of any obstacles and may be enjoyed to the fullest.

Components of an underground sprinkler system

  • Fixed sprinklers
  • Rotary sprinklers
  • Pumps for fountains or water features;
  • Pumps for streams and waterfalls;
  • Pumps for water recirculation;
  • Filters and UV lamps;
  • Spot lights;
  • Preformed panels and coverings;
  • Filters and accessories.

Source: http://www.irrigazionenicolai.it/irrigation/



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