The HLY Micro Turbine Flow Meter is engineered for high-precision liquid flow measurement in industrial environments where accuracy, reliability, and durability are critical. Designed to support industries such as oil and gas, water and wastewater treatment, chemical processing, HVAC systems, marine operations, food production, and vehicle systems, this turbine flow sensor ensures stable monitoring and efficient process control. Its compact design and high repeatability make it ideal for integration into automated systems and pipeline networks.
Key Features
- High accuracy with optional enhanced precision calibration
- Excellent repeatability for consistent flow measurement
- Durable stainless steel housing for corrosion resistance
- Pulse and analog output compatibility for industrial systems
- Explosion-proof design for hazardous environments
- Suitable for clean liquids and low-viscosity fluids
Design & Functionality
The turbine flow meter operates by detecting the rotational speed of a turbine rotor placed within the fluid stream. As liquid flows through the sensor, it spins the rotor at a speed proportional to the flow rate. This rotational movement is converted into electrical pulse signals, enabling real-time monitoring and integration with control systems. Its compact and robust construction ensures minimal pressure loss and long operational life.
Total Crossed Beams
The internal sensing mechanism ensures uniform signal generation across the turbine blades, allowing consistent detection regardless of flow variations. This contributes to higher accuracy and stability in industrial flow measurement applications.
Beam Pitch Options
Optimized turbine blade geometry improves sensitivity across a wide range of flow rates. This ensures accurate measurement in both low-flow and high-flow conditions, making it versatile for multiple industrial applications.
Intrinsic Synchronism
The flow meter maintains synchronized signal output with fluid movement, ensuring precise and real-time data transmission. This is essential for automated process control and monitoring systems in industries such as chemical processing and HVAC.
Operational Advantages
- Enhances process efficiency through accurate flow data
- Reduces operational errors in fluid measurement systems
- Supports automation in industrial manufacturing
- Performs reliably in harsh and hazardous environments
- Compatible with multiple industrial control systems
