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Product Overview
The ZZYS30 vortex flowmeter from Shandong Zhongziyi Intelligent Technology Co., Ltd. is a versatile and highly efficient velocity flow instrument with a multitude of applications.
Designed for precision, it excels in measuring, monitoring, and controlling the flow of liquids, steam, and a wide variety of gases.
Engineered with a cutting-edge structure, it boasts superior resistance to mechanical vibrations, impacts, and contamination, ensuring durability and consistent performance.
Featuring a design with no moving parts, the ZZYS30 flowmeter guarantees zero wear and tear, no need for mechanical maintenance, minimal pressure loss, and exceptional accuracy.
Installation is straightforward, with the flexibility to match the sensor and signal converter according to specific requirements.
Product features:
Wide application range: perfectly suited for measuring the flow of steam, gas, and liquid, making it incredibly versatile.
Outstanding vibration performance: with zero drift at zero point, it effectively eliminates the impact of external vibrations on measurements.
The ZZY30 model also offers temperature and pressure integrated product options, which significantly reduce installation costs for users.
Multiple output options: (0-5) kHz frequency output, (4-20) mA output, or advanced HART/Modbus communication protocols.
Enhanced convenience with Bluetooth communication for parameter setting. Additionally, it is wear-resistant, dirt-resistant, requires no mechanical maintenance, has a long service life, and features explosion-proof capabilities for enhanced safety.
Technical Index
Measurement Medium: Gas, Liquid, Steam
Connection Method: Flange Clamp Type, Flange Type, Insertion Type
Caliber Specifications:
Flange Clamping Type: Caliber sizes of 25, 32, 50, 80, and 100 available.
Flange Connection Type: Choose from caliber sizes 100, 150, and 200.
Flow Measurement Range: Efficiently measures within a normal flow velocity range with a Reynolds number of 1.5×10~4×10; for gas 5~50m/s; for liquid 0.5~7m/s.
Normal Measurement Flow Range: Detailed liquid flow range,
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 for precise readings.
Measured Medium Temperature:
Room Temperature Range: -25ºC~100ºC. High Temperature Options: -25ºC~150ºC, -25ºC~250ºC. Output Signal: Pulse voltage output with high level 8~10V, low level 0.7~1.3V, pulse duty cycle of about 50%, transmission distance up to 100m.
Pulse Current Remote Transmission Signal: 4-20 mA, with a transmission reach of 1000m. Instrument Environment: Operates effectively within -25ºC~+55ºC, humidity range 5~90% RH50ºC. Material: Robust construction using stainless steel and aluminum alloy.
Power Supply: Requires DC24V or a 3.6V lithium battery.
Explosion-Proof Grade: Intrinsically safe iaIIbT3-T6, Protection Level: IP65.
PACKING & SHIPPING: Expertly orchestrated to ensure your products are protected and delivered promptly, maintaining their pristine condition.
We will deliver your order promptly, adhering to your specified timeline to ensure timely receipt of your products.
Installation Requirements
Piping Condition
For optimal performance, installing the vortex flowmeter requires specific straight pipe sections before and after the device. The common configurations are outlined below (D represents the diameter of the pipe):
1.
The sensor should be mounted on a horizontal, vertical, or inclined pipeline (liquid should flow from bottom to top). The pipe diameter should match the sensor's diameter exactly. Ensure a front straight pipe section of 15-20D and a rear straight pipe section of 5-10D to achieve accurate readings.
2.
Ensure the pipe near the liquid sensor is completely filled with the liquid to be measured.
3.
Avoid installing the sensor on pipes that experience strong mechanical vibrations.
4.
The inner diameter of the straight pipe should closely match the sensor's diameter. If matching is impossible, use a pipe with a slightly larger diameter, keeping the error within ≤3% and not exceeding 5mm. Do not install the sensor in areas with strong electromagnetic interference, limited space, or inconvenient maintenance access..
5.
Horizontal pipeline installation is most common for flow sensors. For gas flow measurements with minor liquid content, install the sensor at a higher point. For liquid flow with minor gas content, place the sensor at a lower point.
6.
Vertical pipeline installation is also viable. For gas flow, the sensor can be placed on a vertical pipeline without concern for flow direction. If the gas contains some liquid, flow should go from bottom to top. For liquid flow, ensure the flow is from bottom to top to prevent probe overload.
7.
Side installation on horizontal pipelines is suitable for superheated steam, saturated steam, and low-temperature liquids. This method minimizes the temperature impact on the amplifier and is generally preferred if conditions allow.
8.
Inverted installation on horizontal pipelines is generally not recommended. It is unsuitable for general gases or superheated steam but can be used for saturated steam and high-temperature liquids. It is also useful where pipelines require frequent cleaning.
9.
When installing sensors on pipelines with insulation layers for high-temperature steam, ensure that the insulation does not exceed one-third of the bracket height.
10.
Selecting the right pressure and temperature measurement points is critical. Place the pressure measurement point 3-5D downstream of the sensor and the temperature measurement point 6-8D downstream to ensure accurate readings.
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