TROCKNNER offers three varieties of drying chambers to meet the requirements of different materials.
Heat pump drying is a systematic process that requires, in addition to a stable heat source provided by the equipment, the proper construction of a drying room and a scientific method of dehydration. When constructing this room, it is essential to determine its size and dimensions based on the quantity, type and specific dehydration requirements of the materials to be dried. These parameters can vary significantly as each customer has different drying needs, which complicates the work for the project implementers. As a solution to this dilemma, TROCKNNER has designed three main types of drying rooms. These designs are designed to suit the characteristics of the company's products, the quantity of material to be dried and the process requirements. In addition, they offer standardized installation solutions that allow customers to save considerably on costs, while ensuring the quality of the drying of the materials.
1. Standard single-equipment drying room
Drying room size: 9,600 x 2,200 x 2,400 mm
Material placement method: shelf type material placement
Individual drying capacity: 1 - 1.5 tons
Selected model: 1 TROCKNNER dryer with heat pump and closed-circuit dehumidification, constant temperature type and nine fans
Features: Our nine-fan heat pump products feature a uniquely patented constant temperature dew point technology. This system significantly improves dehumidification and heating speed over traditional closed-loop dehumidifiers. Its integrated design provides a consistent and even air supply thanks to nine fans and a top air inlet that ensures even drying of material without dead areas, eliminating concerns about air distribution. Heat is evenly distributed throughout the drying room, solving the problem of slow drying of some layers of material and consequently reducing the overall drying time, and we maintain a minimum temperature difference of 2 to 5°C between the front and back. Installation is quick and easy, with standard solutions provided without the need for complex copper pipe connections to the main unit. Installation and commissioning of a drying room can be completed in just around 2 days. Our standard drying rooms feature an exhaust system that recovers energy. Using our system in humid conditions not only effectively saves energy but also improves dehumidification at low temperatures.
2. Double-host rail drying room
Drying room size: 9,600 x 4,500 x 2,100 mm
Material placement method: shelf type material placement
Individual drying capacity: 2 to 3 tons
Selected model: 2 TROCKNNER dryers with heat pump and closed-loop dehumidification, constant temperature type and nine fans
Features: This integrated design features flat air distribution across nine fans. It offers more efficient drying through a double-host rail and a now shorter duct, which allows for increased wind speed and volume. As a result, drying time is reduced by 10% compared to rooms with only one host. In addition, minimal temperature and humidity variation is maintained throughout the drying area, ensuring even air distribution with no inactive areas. In terms of installation costs, there is a significant saving compared to two traditional drying rooms due to the lower material usage. The standardized drying room works in conjunction with the TROCKNNER energy recovery dehumidifier, supporting the achievement of low temperatures. This not only optimizes dehumidification but also enables effective energy savings.
3. Large tunnel drying line
Drying room size: 40 - 50 meters long x 3 - 3.5 meters wide x 2 - 2.5 meters high
Material placement method: tunnel drying.
Individual drying capacity: 5 - 10 tons
Selected model: 4 tunnel-type closed-circuit dehumidification heat pump dryers
Features: This drying system is ideal for processes requiring drying of more than 10 tons, thanks to its integrated design and large drying tunnel room. It consists of approximately four zones, each with a TROCKNNER closed-loop dehumidifier, allowing temperature and humidity to be adjusted according to the specific needs of the material to be dried. Typically, the first zone is high temperature and the last is low temperature. The segmentation into zones improves the conventional design of drying tunnels, which has only one air flow from inlet to outlet, which mixes the materials from different sections, affecting the drying quality. By using the TROCKNNER energy recovery dehumidifier in our drying tunnels, it is possible to achieve low temperatures and efficient dehumidification, achieving superior drying and considerable energy savings.
