8000m3/h Hot Sale Pharmaceutical Desiccant Dehumidifier Industrial Use
Main Parameters:
| Model |
ZCB—8000 |
| Process Airflow(m3/h) |
8000 |
| Requirements |
T=18℃, RH≤20% |
| Fresh Airflow(m3/h) |
800 |
| First Return Airflow(m3/h) |
5200 |
| Second Return Airflow(m3/h) |
2000 |
| Rotor Process Airflow(m3/h) |
6000 |
| Rotor Reactivation Airflow(m3/h) |
2000 |
| Parameters of Supply Air |
T=12℃, RH≤20% |
| Regeneration Temperature |
120±10℃ |
| Reactivation Steam Consumption (0.4mPa) (kg/h) |
90 |
| Reactivation Fan Power(kw) |
2.2 |
| Blower Power(kw) |
7.5 |
| Driving Motor Power(kw) |
0.1 |
| Cooling Load(kw) |
75.3 |
|
Chilled Water Consumption
(T≤7℃) (T/h)
|
12.9 |
| Power Supply |
3P/460V/60Hz |
| Installed Power(kw) |
9.8 |
| ESP(External Static Pressure) (Pa) |
600 |
Advantages of desiccant dehumidifier
Desiccant dehumidifiers offer several advantages over traditional refrigerant-based dehumidifiers, making them a preferred choice in various industrial and commercial applications. Here are the key advantages of desiccant dehumidifiers:
- Low-Temperature Operation:
- Desiccant dehumidifiers can effectively remove moisture from the air even at low temperatures, typically down to around 40°F (4°C).
- This makes them suitable for applications where refrigerant-based dehumidifiers may not function efficiently, such as in cold storage facilities or during winter conditions.
- High Dehumidification Capacity:
- Desiccant dehumidifiers can achieve very low humidity levels, often reaching relative humidity (RH) as low as 5-10%.
- This high dehumidification capacity is crucial in applications where extremely dry air is required, such as in pharmaceutical manufacturing or electronics assembly.
- Continuous Operation:
- Desiccant dehumidifiers can operate continuously without the need for periodic defrosting, which is required for refrigerant-based units in low-temperature environments.
- This ensures consistent and reliable dehumidification performance, making them suitable for applications that demand uninterrupted humidity control.
- Energy Efficiency:
- Desiccant dehumidifiers can be more energy-efficient than refrigerant-based dehumidifiers, especially in low-temperature or low-humidity applications.
- The desiccant material used in these units requires less energy to regenerate, resulting in lower operating costs.
- Compact Design:
- Desiccant dehumidifiers can have a more compact and modular design compared to larger refrigerant-based units.
- This makes them easier to install and integrate into confined spaces or existing HVAC systems.
- Versatile Configurations:
- Desiccant dehumidifiers can be configured with various options, such as integrated heating or cooling systems, to meet specific application requirements.
- This flexibility allows for tailored solutions to address the unique humidity control needs of different industries and environments.
- Reduced Maintenance:
- Desiccant dehumidifiers generally require less maintenance compared to refrigerant-based systems, as they have fewer moving parts and do not require regular refrigerant recharging.
These advantages make desiccant dehumidifiers an attractive choice for industrial and commercial applications where precise humidity control, energy efficiency, and reliable operation are crucial. The selection of a desiccant dehumidifier should be based on a thorough assessment of the specific requirements of the application, including factors such as air volume, humidity levels, and environmental conditions.
Operating Principles:
Supply Air Stream
Outside air is drawn into the unit using the supply fan. The warm, moist outside air first passes through filters and then the cooling coil where it is cooled. The air then goes through the desiccant wheel where the air is dehumidified and the temperature is raised. At last the air is delivered directly to the space or into an existing air handler.
Exhaust Air Stream
Exhaust air is used to provide energy recovery for the desiccant wheel and is drawn into the unit using the exhaust fan. The air filtered and then heated and humidified during the energy recovery process. The air is then heated while passing through the regeneration coil. The heated air removes the moisture that the desiccant wheel adsorbs from the process air stream.
User Friendly HMI:
Main Components:
Refrigeration System for Option:
Application:
- Pharmaceutical and Biotech Industries:
- Electronics and High-Tech Manufacturing:
- Food and Beverage Processing:
- Textile and Apparel Manufacturing:
- Printing and Paper Industries:
- Museums, Libraries, and Archives:
- Construction and Building Maintenance:
- Aerospace and Defense:
Our Certificates:
