NOVAGRIC Projects

Irrigation of super-intensive hedge almond trees

This project is being carried out on a large farm dedicated to super-intensive hedge almond cultivation, with an ambitious production approach and water resources that allow for high yield targets.

The farm is in its third year of production, with an initial estimate of around 700 kg/ha of kernels, and a target of between 2,000 and 2,500 kg/ha/year, always under criteria of efficiency and agronomic control.

Hydraulic and agronomic design

One of the main design criteria in this type of farm is to ensure total hydraulic balance. The aim is for the entire farm to be irrigated evenly, with:

The same pressures
The same flow rates
An even distribution of water and fertiliser

This prevents vegetative and productive imbalances between sectors, which is critical in large-scale farms.
In addition to the hydraulic design, the project has been designed to ensure agronomic balance, so that water and nutrients are supplied evenly to all sectors at all stages of the crop cycle.

Technical challenges of the project

Uneven terrain on the farm

One of the main challenges of this installation is the terrain, with differences in elevation of up to 200 metres within the farm itself. This directly affects:

The location of the irrigation head
The sizing of pipes
The selection of control and safety elements

The correct location of the head has been key to minimising differences in elevation and facilitating stable operation of the installation.

Number of irrigation lines

In super-intensive almond cultivation, the technical trend is to work with a single hose per line, as opposed to intensive systems where two are used. In this project, a single line has been chosen, adapted to the hydraulic and topographical conditions of the farm.

Fertigation system and irrigation head control

The irrigation head is equipped with a multi-injection fertigation system, managed by a smart controller.
At Novagric, we regularly work with Venturi systems, which allow several fertilisers to be injected simultaneously, control pH and conductivity, and avoid antagonisms between nutrients

The system allows three fertilisation methods to be used:

By time, distributing the fertiliser throughout the irrigation cycle
By conductivity, setting a target value
By volume, considered the most accurate method from an agronomic point of view

In the latter case, the exact litres of fertiliser to be applied are programmed using fertiliser meters to ensure that the dose is distributed correctly throughout the irrigation process.

Water management and storage

The farm has a 30,000 m³ reservoir lined with polyethylene sheeting, a key solution to prevent losses due to infiltration, waterlogging and damage to nearby trees.

Pump system.

The pumping system uses floating pumps, supported by floats, which keep the pump at a constant height, draw water from the middle of the reservoir and ensure stability and continuity of supply.

Safety and control elements of the installation

Given the complexity of the terrain, the project incorporates various hydraulic safety elements, which are essential to ensure uniformity and prevent breakdowns:

Sector valves with solenoid
Single-cable control system
Micropiles to equalise pressure
Suction cups in high areas and depressions
Shut-off valves for maintenance without disabling sectors

These elements enable safe, flexible and easily maintainable operation.

Novagric supports you from the design of the idea to the implementation of the project.

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Some pictures of our project in Talavera de la Reina (Toledo, Spain)

Project details

Type

Localised irrigation and fertigation in woody crops

Location

Talavera de la Reina (Toledo, Spain)

Cultivation

Almond hedge (Penta variety)

Surface

280 ha in total. 180 ha in super-intensive system

Localized irrigation system for almond trees in hedgerows
Irrigation head with Venturi multi-injection
Smart irrigation and fertigation controller
Fertilizer meters per injection line
30,000 m³ waterproof reservoir
Floating collection pumps
Hydraulic valves with solenoid
Single-cable control system
Safety suction cups
Shut-off valves for maintenance

Comprehensive hydraulic design of the farm
Irrigation system sizing
Fertigation system design
Agronomic advice on fertilization strategies
Implementation of control and safety systems
Commissioning of the installation

Adaptation of the irrigation system to slopes of up to 200 meters, maintaining uniform pressure and flow throughout the farm.
Hydraulic and agronomic uniformity across 180 ha of super-intensive almond hedgerows, ensuring the same distribution of water and fertilizer in all sectors.
Precise fertigation using a Venturi multi-injection system, with simultaneous pH and conductivity control to avoid antagonisms between nutrients.
Volume-controlled fertilizer application, ensuring the exact dosage of each fertilizer throughout the irrigation process using specific meters.
Optimization of water storage with a 30,000 m³ waterproof reservoir, preventing losses due to infiltration and waterlogging problems in the crop.
Stable water collection using floating pumps, ensuring constant water intake from an average reservoir level.
Irrigation system designed with hydraulic safety features, such as suction cups, micropiles, and sectorized valves, to reduce the risk of breakdowns.
Installation designed for easy maintenance, allowing for specific replacements without rendering entire irrigation sectors unusable.
Solid technical basis for achieving between 2,000 and 2,500 kg/ha/year, always under criteria of efficiency and agronomic control.

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