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The hydraulic calculation

Designing an irrigation system is not just about drawing but also perform an hydraulic calculation to obtain quantitative results. Without knowing how it behaves (hydraulically) a network, at any point, how do you know which diameter of the pipeline to adopt or which and how many emitters you can feed?
How can you say that a project is well done, not knowing if at any point is dispensed the right amount of water?
The proper project takes into account all the geometrical parameters, physical, topographical (as well as the boundary conditions where the plant will be built) and uses the most advanced engineering methodologies and mathematical formulas to analyze the quality of irrigation.
The third-party software adopt simplified methods to calculate the flow and pressure: typically they design according to the criterion of constant speed in the pipe or strive for minimum cost (economic). In this way we obtain approximate results and the technician is unable to answer the questions: does the water reach all parts of the installation? Is the irrigation system working well? Can The plant guarantee me an acceptable quality for irrigation?
Take for example a plant on an area of 0.6 hectares with about 5000 emitters built on a lot with variable slopes (with laterals that have an average gradient of 2.5% ranging from a minimum value of -5% and maximum +10%).
On following table it shows the consequences if it isn't considered any parameters in the calculation:
Other softwares
Maximum error [%]
Variable slope
Processing 3D model of the ground for a variable slope, point by point, section by section, pipe by pipe
Inserting a constant slope for all parts of the system
40% for the value of uniformity50% for the minimum pressure
The error varies according to the order they are presented with the change of slope
Variables speed
Calculated as a variable in every point
Set as a constant value
In general, the water speed varies in lateral pipes between 5m/s and 0 m/s
Costant Head losses
Calculated assuming Variables the flow rates of each part of pipe and the outgoing flow from each emitter (rigorous formulation of the equation of motion and continuity)
Calculated by taking the equivalent discharge transiting the entire length of the pipeline
30% of the total head losses
The evolution of pressure due to continuous losses, calculated as the equivalent discharge of service along the pipe, has a constant slope and differently by reality. The calculation of uniformity in this case is not reliable
Local head losses
Considered using a rigorous formulation depending on the size of the emitter
Not considered or imposed as a constant proportion of the pressure
50% of the total head losses
The local head losses (due to the presence of emitters) include up to 50% of the total head losses
Integral calculus of the system
Integral calculus of all processed laterals considering their mutual interaction between each element
Calculation on a single chosen lateral
The reliability calculation for a single lateral (the result is then extended to the whole system) depends on the choice of the lateral and the size of the system
Not modifiable
7-10% of the total pressures
Temperature affects the viscosity and density of water
In conclusion, the error committed not considering any or all of the components of the calculation may become significant. In other words, a simple calculation gives no guarantee to the success of a project.

The solution for any need

IrriPro softwareIrriPro is available with FREEWARE license for small systems and with basic features, with fully featured for limited time or with never ending LIFETIME licenses.


IrriPro has a CAD-style user friendly interface, designed to be used by engineers, agronomists and other technicians. They have all the analisys tool needed to estimate the consequences of any design choice and to represent the trend of any physical parameter.


The DB is not a list of passive elements, but a way to make the most of the software using existing material on the market.


The irrigation software IrriPro is the only tool that optimizes the use of water and improves the distribution uniformity, increasing the system efficiency and ensuring the correct distribution of water and fertilizers. Moreover IrriPro reduces the system realization costs, improving quantity and quality of agricultural production.