Description
The Grundfos DDE 6-10 P-PVC/E/C-X-31I003BG is a versatile, digital dosing pump designed for precise and reliable chemical dosing in a variety of applications. This model, known for its accuracy, user-friendly interface, and robust construction, is ideal for systems requiring controlled and consistent chemical dosing. Below is a detailed overview of its features and technical specifications.
- Digital dosing with precise flow control
- Adjustable dosing rate for flexible operation
- Corrosion-resistant materials for durability
- Integrated flow monitoring
- User-friendly interface with easy setup
- Low energy consumption
- Compact design for space-saving installation
The Grundfos DDE 6-10 P-PVC/E/C-X-31I003BG is suitable for:
- Water and wastewater treatment
- Cooling towers and boilers
- Chemical processing
- Food and beverage industries
- Pharmaceutical and laboratory applications
- Swimming pools and spas
- Disinfection and sanitation processes
Model | DDE 6-10 P-PVC/E/C-X-31I003BG |
---|---|
Product Number | 97721094 |
Flow Rate | 0.006 to 6 l/h |
Max Pressure | 10 bar |
Power Supply | 100-240V AC, 50/60Hz |
Material | PVC (Pump Head), EPDM (Seals), Ceramic (Balls) |
Control | Manual, Analog, or Digital Signal |
Protection Class | IP65 |
Temperature Range | 0°C to 45°C |
This pump features a digital diaphragm design with a compact footprint, making it ideal for installations with limited space. The wetted parts are made from high-quality, corrosion-resistant materials such as PVC for the pump head and EPDM for the seals, ensuring longevity and reliability. The ceramic balls used in the pump further enhance its durability and chemical resistance.
The Grundfos DDE 6-10 P-PVC/E/C-X-31I003BG offers precise control over the dosing rate, which can be adjusted manually or via analog or digital signals. This flexibility allows for seamless integration into various control systems and processes. The pump is designed to deliver accurate and consistent dosing, even under fluctuating operating conditions, ensuring optimal performance and efficiency.