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Product Overview
The ZZYS30 vortex flowmeter, an advanced velocity flow instrument, serves a multitude of applications with exceptional precision.
Perfectly designed for measuring, monitoring, and controlling the flow of liquids, steam, and most gases, ensuring versatile utility.
Boasting a revolutionary structure that withstands mechanical vibrations, impacts, and contamination, this device is built for resilience.
With a design free of moving parts, it eliminates wear and tear, requires no mechanical maintenance, and guarantees low pressure loss, stable performance, and high accuracy.
Installation is a breeze, with the capability to match the sensor and signal converter as required for optimal performance.
Product features:
Wide application range, efficiently measuring the flow of steam, gas, and liquid, making it incredibly adaptable.
Superior vibration performance ensures zero drift at zero point, effectively negating the impact of external vibrations.
The ZZY30 offers integrated temperature and pressure options, significantly reducing installation costs for users.
Supports multiple communication protocols including (0-5) kHz frequency output, (4-20) mA output, and HART/Modbus communication.
Parameter settings can be adjusted via Bluetooth communication. The device is wear-resistant, dirt-resistant, maintenance-free, boasts a long service life, and is explosion-proof for enhanced safety.
Comprehensive Technical Index
Measurement Medium: Versatile for Gas, Liquid, and Steam
Connection Methods: Flange Clamp Type, Flange Type, and Insertion Type
Caliber Specifications:
Flange Clamping Type Caliber Options: 25, 32, 50, 80, 100.
Flange Connection Type Caliber Selection: 100, 150, 200
Flow Measurement Range: Standard Flow Velocity Range with Reynolds Number 1.5×104~4×106; Gas Flow 5~50m/s; Liquid Flow 0.5~7m/s.
Standard Flow Measurement Range for Liquid
Gas Flow Measurement Range: Refer to Table 2.
Steam Flow Range: Refer to Table 3.
Measurement Accuracy: Available in 1.0 Class and 1.5 Class
Measured Medium Temperature Range:
Room Temperature: -25ºC~100ºC, High Temperature: -25ºC~150ºC and -25ºC~250ºC. Output Signal: Pulse Voltage Output Signal with High Level 8~10V, Low Level 0.7~1.3V. Pulse Duty Cycle is Approximately 50%, with a Transmission Distance of 100m.
Pulse Current Remote Transmission Signal: 4-20 mA with a Transmission Distance of 1000m. Instrument Usage Environment: Temperature: -25ºC~+55ºC, Humidity: 5~90% RH50ºC. Material Composition: Stainless Steel, Aluminum Alloy
Power Supply: DC24V or Lithium Battery 3.6V
Explosion-Proof Grade: Intrinsically Safe iaIIbT3-T6, Protection Level IP65.
PACKING & SHIPPING
We ensure to deliver your ordered product at the earliest date as per your requirement, guaranteeing prompt and efficient service.
Installation Requirements
Piping Condition
The installation of a vortex flowmeter necessitates a designated section of straight piping both before and after the meter. The typical configurations are as follows (D represents the diameter of the pipe):
1.
The sensor must be installed on a pipe that is horizontal, vertical, or inclined (with the liquid flowing from bottom to top) and matches the sensor's diameter. There should be a specified length of straight pipe upstream and downstream of the sensor. The front straight pipe section should range from 15-20D, while the rear should be 5-10D.
2.
The pipe near the liquid sensor must be filled with the liquid being measured.
3.
The sensor must not be installed on pipes experiencing strong mechanical vibrations.
4.
The inner diameter of the straight pipe section should closely match the sensor diameter. If identical diameters are not possible, a slightly larger pipe should be used, with an allowable error of ≤3% and not exceeding 5mm. Avoid installing the sensor in areas with strong electromagnetic interference, restricted space, or where maintenance is inconvenient. Adherence to installation requirements is crucial..
5.
Horizontal pipeline installation is the most common method for flow sensors. When measuring gas flow, if the gas contains a small amount of liquid, the sensor should be positioned at a higher point in the pipeline. When measuring liquid flow, if the liquid contains a small amount of gas, the sensor should be placed at a lower point in the pipeline.
6.
Sensor installation in vertical pipelines: When measuring gas flow, the sensor can be installed without any restriction on flow direction. If the gas contains a small amount of liquid, the gas flow should be from bottom to top. For liquid flow, the liquid should ascend to prevent additional weight on the probe.
7.
Side installation of sensors on horizontal pipelines: Regardless of the fluid being measured, sensors can be side-mounted. This method is especially suitable for superheated steam, saturated steam, and low-temperature liquids. If conditions permit, side mounting is preferred as it reduces the temperature impact on the amplifier.
8.
Inverted installation of sensors on horizontal pipelines: Generally not recommended. This method is unsuitable for general gases or superheated steam but can be used for saturated steam and high-temperature liquids or when pipelines require frequent cleaning.
9.
Installation of sensors on pipelines with insulation: When dealing with high-temperature steam, the insulation layer should not exceed one-third of the bracket height.
10.
Selection of pressure and temperature measurement points: Depending on measurement requirements, the pressure measurement point should be 3-5D downstream of the sensor, and the temperature measurement point should be 6-8D downstream of the sensor.
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