Electromagnetic Flow Meter MFE600Z Series

Introduction

The Electromagnetic Flow Meter MFE600Z Series is a state-of-the-art device designed for precise and reliable flow measurement across various industrial applications. Leveraging the latest advancements in domestic and international technology, the MFE600Z ensures unparalleled accuracy, robustness, and a long operational lifespan. This flow meter is ideal for environmental protection, heating systems, building automation, and flow monitoring in complex setups.

Features

Unaffected Measurement Accuracy

The MFE600Z Flow Meter provides consistent accuracy regardless of changes in fluid density, viscosity, temperature, pressure, or electrical conductivity. This reliability makes it a versatile tool across different industrial environments.

Open Flow Design

With no moving parts within the measuring pipe, the MFE600Z ensures there is no pressure loss during operations. Its design eliminates mechanical inertia, enhancing sensitivity to measure even transient pulsating flux accurately.

Durability and Longevity

Only the flow meter's lining and electrodes come into contact with the media, allowing for long-term use due to their corrosion and abrasion resistance. The selection of appropriate electrode and lining materials ensures durability even in harsh conditions.

Advanced Multi-Electrode Structure

The MFE600Z is equipped with a multi-electrode structure that ensures high measurement accuracy. The inclusion of a grounding electrode eliminates the need for a grounding ring, reducing overall costs.

Reliable Performance and Low Power Consumption

The flow meter's converter uses a low-power consumption single-chip for data processing, ensuring reliable performance with high accuracy, low power consumption, and excellent zero stability. The dot matrix LCD provides clear display options for integrated flux, transient flux, velocity, flow percentage, and other key parameters.

Bidirectional Measurement

The MFE600Z supports two-way measuring systems, allowing it to measure both forward and reverse flux. The use of low-frequency rectangular wave excitation improves flow stability, reduces power loss, and enhances low-velocity performance.

Working Principle

The MFE600Z Electromagnetic Flow Meter operates based on Faraday’s Law of Electromagnetic Induction. When a conductive liquid passes through the flow meter, an induced electromotive force is generated in the liquid, proportional to the velocity of the liquid, magnetic flux density, and the interior diameter of the flow meter. This induced electromotive force is detected by electrodes on the flow meter's tube wall, providing accurate measurement of the flow rate.

Installation Guidelines

Full Pipe Operation

For optimal functionality, the MFE600Z must operate under a fully filled pipe condition. The flow meter cannot perform accurately if the pipe is not completely filled or is empty.

Straight Pipe Requirements

To ensure high accuracy, the MFE600Z requires a specified length of straight pipe both before and after the installation point. This arrangement minimizes flow disturbances, ensuring reliable measurements.

Proper Installation Direction

When installing the MFE600Z, the flow direction should align with the arrow on the sensor. Additionally, supports on both sides of the pipeline are necessary to prevent stress from pipeline vibrations or impacts.

Sensor Grounding

To avoid noise interference, proper grounding of the sensor is essential. The flow meter includes a ground loop that establishes a liquid ground, which protects the lining and ensures accurate measurements.

Compliance and Manufacturing Standards

The MFE600Z Electromagnetic Flow Meter is manufactured following rigorous standards, including JB/T 9248-2015, JJG 1033-2007, and several EMC (Electromagnetic Compatibility) standards. These ensure that the product meets high-quality benchmarks for performance and safety in various industrial environments.

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