The KN24 turbine flowmeter is a high-performance solution engineered for accurate liquid flow measurement in industrial and commercial pipeline systems. Designed to deliver consistent and reliable readings, this flowmeter supports efficient monitoring and control of fluid movement, helping industries maintain operational precision and reduce resource wastage.
Key Features
- High-accuracy liquid flow measurement with ±2% F.S precision
- Integrated electronic display showing flow rate and totalizer
- Battery-powered operation for flexible installation
- Compact and lightweight design for easy integration
- Suitable for various liquid handling systems
Application
The KN24 turbine flowmeter is widely used in water management systems, industrial fluid transfer processes, chemical handling, and general pipeline monitoring. It plays a crucial role in ensuring accurate consumption tracking, preventing overuse, and maintaining process efficiency across manufacturing and utility sectors.
Design & Functionality
This flowmeter operates using a turbine mechanism that rotates as liquid passes through the pipeline. The rotational speed correlates directly with flow rate, enabling precise measurement. The built-in display provides clear readings of both instantaneous flow and accumulated volume, allowing operators to monitor performance in real time.
Total Crossed Beams
The internal turbine structure ensures stable rotational movement, enabling consistent signal output for accurate flow detection even under varying flow conditions.
Beam Pitch Options
Optimized internal spacing supports smooth fluid passage, reducing turbulence and maintaining measurement stability across different flow ranges.
Intrinsic Synchronism
The KN24 maintains synchronized measurement output with fluid movement, ensuring dependable data accuracy without lag or fluctuation.
Operational Advantages
By delivering real-time insights into liquid flow, the KN24 helps industries improve system efficiency, detect irregularities, and minimize waste. Its battery-powered operation reduces dependency on external power sources, while its durable construction ensures long-term reliability in demanding environments. This makes it a cost-effective and efficient solution for modern fluid monitoring needs.
