Antribrina 3-22
Low-noise and low-emission frost protection
The Italian technology of Antibrina 3-22 proposes an efficient and aerodynamic design that exchanges the surface cold air (below) for hot air (below). The perfect alternative for properties with water scarcity.
The Reinvention of a Classic
Antibrina 3-22 offers all the advantages of a traditional frost tower but at a fraction of the energy and operational expense.
Made in Italy
Aria is the preferred manufacturer throughout Europe for medium and small wind turbines. Tierraverde is their official representative in Chile.
Lightweight and powerful
Weighing less than one ton, with a capacity of up to 140 cubic meters per second, it influences an area of up to 5 hectares.
Swift installation
The structural simplicity of Antibrina allows it to be easily mounted on a base with anchor bolts.
Frost control
Protects cherry trees, citrus, stone fruits, pome fruits, avocados, olives, table grapes, wine grapes, blueberries, kiwis, potatoes, artichokes, strawberries, and much more.
Frost control
Protects cherry trees, citrus, stone fruits, pome fruits, avocados, olives, table grapes, wine grapes, blueberries, kiwis, potatoes, artichokes, strawberries, and much more.
Alternative Applications
Moisture control, foliar product application.
Alternative Applications
Moisture control, foliar product application.
Evaporative Cooling
Take control of your climate even in high-temperature situations
Evaporative Cooling
Take control of your climate even in high-temperature situations
Beneficios y características
Our high-frequency, low-flow emitter will be the best companion to your current irrigation system.
Gran adaptabilidad
Al cubrir un radio uniforme, permite su instalación para diferentes marcos de plantación: 6×4, 5×5, 6×6, 7×4,5×5 entre los más extendidos.
Fácil instalación
El diseño de PULSATOR™ 205 y PULSEMAX 360™ permiten su acoplamiento a diferentes soportes, tanto tutores de PVC, como estructuras colgantes en líneas de alambres.
Durable
PULSATOR™ 205 y PULSEMAX 360™ están fabricados con materiales plásticos altamente resistentes a la acción de la radiación solar.
Ahora agua
La combinacion de PULSATOR™ 205 y PULSEMAX 360™, permite precipitar menos agua que un sistema tradicional de aspersión.
Mantención sencilla
Al ser modulares, los productos permiten un desarmado simple para su limpieza y mantención.
Cómo funciona
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.
PULSATOR™ 205 and PULSEMAX 360™ are supported by a stake or structure, and connected to a microtube that features a self-compensating dripper with various flow rates (between 12 and 40 liters/hour). Additionally, the dripper is connected to the irrigation network through polyethylene lines of 16 or 20 millimeters.
Provides multiple pulses per minute, depending on the chosen flow rate, ensuring uniform coverage over an area for several hours without causing waterlogging.
The pulsation system allows each emitter to cover a large area while maintaining a low flow rate, enabling a reduction in the number of units per hectare, as well as savings in infrastructure costs, energy consumption, and water.