Dryers are an advanced solution for controlling moisture in forage and other crops, which is crucial for storage quality, animal nutrition and further processing.
The drying plants we offer are technically sophisticated and flexible, and can be easily integrated into existing technological processes on the farm or in the processing plant.
A
It removes moisture from the air in the hay by separating the water through aluminium fins through which the refrigerant flows.
The innovative nanoparticle coating ensures fast removal of condensation water and prevents deposits from accumulating on the aluminium fins that would otherwise hinder the condensation process.
B
Heats the air to a preset temperature before it enters the hay.
The air is heated as it passes over the copper tubes of the heating element.
C
Easy-to-change cartridge filters clean the air before it enters the dryer.
This prevents the build-up of dust and dirt in the machine, which reduces the efficiency of the system.
The easy-to-clean mesh catches coarse dirt in front of the filter.
D
Venturi manifolds direct the refrigerant to the condensing dryer.
This ensures that the refrigerant is evenly distributed throughout the different parts of the dryer, increasing the efficiency of the condensation process.
E
All system components are easily accessible through the maintenance openings.
This means that the device does not require extensive dismantling for maintenance.
F
The casing panels are insulated to maintain optimum operating temperature.
This reduces energy loss through heat dissipation and keeps noise levels low.
G
Pressure gauges and thermometers for reliable readings of the most important parameters of the cooling process directly on the system.
The suction pressure gauge shows the pressure in the evaporator.
The condensing pressure gauge shows the pressure in the compressor.
H
A stainless steel tray collects the water, which is extracted by a condensation dryer and then discharged through copper pipes.
The float shows the water level in the tray and warns if the water level rises due to a blocked drain.
If desired, the water can be pumped out using a condensate pump (riser system).
I
The compressor compresses the refrigerant from about 1.5 bar to 20 bar. This heats the refrigerant and allows it to raise the temperature of the air in the heat exchanger to the temperature required for drying hay (e.g. 45 °C).
The number of compressors used depends on the requirements of your system.
Maximum compressor power: 10 kW.
Nominal compressor power: 9 kW.
J
The transverse heat exchanger provides energy savings when heating the air for the hay dryer, using the heat of the supply air for the condensing dryer.
The recuperator reduces energy consumption by about 25 % compared to a conventional drying system with the same drying capacity.
K
Expansion tank to stabilise the pressure in the system. The vessel is divided into two parts by a diaphragm.
One is filled with gas and the other with refrigerant if the pressure becomes too high.
L
A stainless steel tray collects the water, which is extracted by a condensation dryer and then discharged through copper pipes.
The float shows the water level in the tray and warns if the water level rises due to a blocked drain.
If desired, the water can be pumped out using a condensate pump (riser system).
Drying appliances shall be designed to provide maximum drying efficiency, energy efficiency, reliability and easy operation in a wide range of environments.
The system includes a heat recovery ventilator that provides up to 30 % lower energy consumption compared to conventional dryers.
The coefficient of performance (COP) is between 6 and 7,47, which contributes to lower operating costs.
The double-circuit heat exchanger effectively prevents icing and ensures operation even under harsh conditions.
The best materials are used to enable high durability and reduce the need for frequent servicing.
The design of the device allows maintenance by any professional, regardless of manufacturer or supplier.
All components are the result of continuous development, ensuring a high-quality and modern drying solution.
25,000-30,000 m3/h
6-7,47
30% lower energy consumption compared to conventional systems due to the use of a recuperator
Two-circuit heat exchanger prevents icing
Every farm is different, so we consider the introduction of an automated feeding system as a process. We are with you from the first conversation through to support after commissioning to ensure the system works reliably and to your needs.
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