Model No. | DT300H-100pcs trays |
Horse power (HP) | 3 |
Oven temp.(℃) | 18~75 |
Dry humidity(%) | 5%-99% |
Trays Quantity | 100 |
Dehumidity Capacity (L/h) | 12 |
Drying Cabinet Size (mm) | 2200×1950×2000 |
Trays Size (mm) | 800x600x50 |
Designed Material Load Capacity (kg) | 300-400 |
Rated Power Input(kW) | 5.5 |
Rated Voltage(V) | 220V/1PH or 380V/3PH, 50/60HZ |
Rated Current Input(A) | 25.0A / 11.0A |
Electricity Shock Proof Grade | I |
Emergency Auxiliary Heating Power Input(kW) | 9.0 |
Emergency Auxiliary Heating Current Input(A) | 41.0 or 18.0 |
Refrigerant | R134a |
Absorb Max Working Pressure(MPa) | 0.7 |
Discharge Max Working Pressure(MPa) | 3.0 |
Compressor Brand/Type | Copeland/scroll |
Noise | ≤69dB(A) |
Ambient Temperature | 10-43℃ |
Packing Weight of Machine(kg) | 997.0KG |
Packing Dimension (mm) | 2400×2030×2210 |
Soft packing(20ft container can loading 3pcs ) | 2200*1950*2150mm |
1. Pre-installed, no need install anything
2. Big capacity 100pcs trays
3. Reasonable design
As an important piece of equipment, Dehydrator play a key role in many industries to remove moisture from products and improve product quality and durability. With the continuous advancement of science and technology and the continuous change of needs, the development of Dehydrator is also undergoing continuous research and innovation. Some of the research areas related to dryer development are as follows:
Energy Efficiency Improvement: Dehydrator have traditionally used traditional hot air circulation systems in the past, but this method has higher energy consumption. Now, researchers are working on developing more energy-efficient dryer technologies, including heat pump drying, microwave drying, and infrared drying. These new technologies enable more efficient use of energy, reduce energy waste, and increase drying efficiency.
Research on heat and mass transfer mechanism: Researchers conduct in-depth research on the heat and mass transfer mechanism in the drying process to improve the drying effect. They study the heat transfer characteristics of different materials under different temperature, humidity and wind speed conditions, and optimize the drying parameters to achieve faster, more uniform and higher quality drying results.
Drying process modeling and simulation: By establishing mathematical models and performing computer simulations, researchers can better understand and predict changes in parameters such as temperature, humidity, and material transport during the drying process. This helps optimize the drying process, increases production efficiency, and reduces product quality issues.
Sensing technology and intelligent control: Using sensor technology and intelligent control system, researchers can monitor and adjust parameters such as temperature, humidity, and wind speed in the drying process in real time. This intelligent control can ensure the stability and consistency of the drying process, and can be automatically adjusted according to the needs of different products to improve production efficiency and product quality.
New materials and new process applications: Researchers are also working on the development and application of new drying materials and processes to meet the needs of different industries. For example, in the textile industry, researchers are developing softer, durable drying belts and drying rollers to improve the drying performance and quality of textiles. In the food industry, researchers are investigating new drying media and packaging techniques to preserve the taste and nutritional value of foods.
Multifunctional and customized design: With the diversification of drying needs in different industries, researchers are working on developing Dehydrator with multifunctional and customized designs. These Dehydrator can be adjusted and optimized according to the characteristics and requirements of different products to achieve the best drying effect.
Environmentally friendly and sustainable: Researchers are also focusing on the environmental impact and sustainability of Dehydrator. They are committed to reducing emissions and waste generation during drying, improving energy efficiency and promoting the use of renewable energy and green materials.
Through the above research areas, the dryer industry is constantly pursuing innovation and improvement to meet the ever-changing market demands. The researchers' efforts will further improve the dryer's efficiency, quality and environmental friendliness, providing more reliable and efficient drying solutions for various industries.
Model No.: DT300H
Power supply: 220V/1PH 380V/3PH,50HZ/60HZ
Power input: 5.0KW
Rated current: 23.0A / 10.0A
Heating capacity: 10.5KW Heat pump dryer + 9.0KW Electric heater
Cooling capacity: 7.5KW
Model No.: DT300H
Power supply: 220V/1PH 380V/3PH,50HZ/60HZ
Power input: 5.5KW
Rated current: 25.0A / 11.0A
Heating capacity: 10.6KW
Cooling capacity: 7.5KW
Model No.: DT100H
Power supply: 220V/1PH,50HZ/60HZ
Power input: 4.75KW
Rated current: 22.0A
Heating capacity:
Cooling capacity: