DYNAguard V is a high-performance solid flow monitoring system engineered for industrial material handling environments. It provides reliable detection of mass flow in pneumatic conveying systems, feeders, and gravity chutes. Designed for powders, granules, and pellets, this device ensures continuous monitoring and helps industries maintain process efficiency while minimizing production disruptions.
Key Features
- Real-time detection of solid material flow conditions
- Early identification of blockages, interruptions, or irregular flow
- Suitable for a wide mass flow range from g/h to t/h
- Flexible modular design for easy integration
- Reliable performance across various conveying applications
Design & Functionality
The system operates by detecting electrostatic charges generated when solid particles interact with surfaces such as pipe walls. These electrical signals are analyzed to determine material movement within the system. This non-intrusive method ensures accurate monitoring without interference from buildup or lining on the pipe surface.
The modular sensor electronics connect seamlessly with ESR series process couplings, enabling quick installation and adaptability in both new and existing systems. This flexibility makes it ideal for retrofitting applications without major system modifications.
Total Crossed Beams
The DYNAguard V ensures complete material flow coverage by detecting movement across the entire pipeline cross-section. This guarantees accurate readings even in complex conveying conditions.
Beam Pitch Options
Its adaptable sensing range allows effective monitoring across varying material densities and flow velocities. This ensures precise detection for different types of bulk solids.
Intrinsic Synchronism
The system maintains consistent signal processing and stable monitoring performance, ensuring accurate flow detection even under fluctuating process conditions.
Operational Advantages
By identifying conveying issues early, DYNAguard V helps prevent costly plant failures such as clogging, material loss, and downtime. It enhances process reliability and supports efficient production management. Its robust design and easy installation reduce maintenance requirements, making it a cost-effective solution for industrial flow monitoring.
