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Product Overview
The ZZYS30 Vortex Flowmeter is an advanced velocity flow instrument ideal for diverse applications, embodying exceptional versatility and reliability.
Perfectly engineered for measuring, monitoring, and controlling the flow of liquids, steam, and various gases with unparalleled accuracy.
Boasts a robust, innovative design that withstands mechanical vibrations, impacts, and contamination effortlessly.
Featuring a no-moving-parts design, it ensures no wear and tear, eliminating the need for mechanical maintenance. Enjoy low pressure loss and consistently stable, high-precision performance.
Experience hassle-free installation with customizable sensor and signal converter pairing to meet your specific needs.
Product Features:
Versatile application range, adept at measuring the flow of steam, gases, and liquids with precision.
Outstanding vibration resistance with zero drift at zero point, effectively nullifying external vibration influences.
The ZZY30 model offers integrated temperature and pressure measurement options, providing cost-effective installation solutions for users.
Supports (0-5) kHz frequency output, (4-20) mA output, and HART/Modbus communication protocols for seamless integration.
Enables parameter setting through Bluetooth communication. Built to last with wear-resistant and dirt-resistant properties, it ensures long service life and explosion-proof safety.
Technical Index
Measurement Medium: Gas, Liquid, Steam
Connection Method: Flange Clamp Type, Flange Type, Insertion Type
Caliber Specifications:
Flange Clamping Type: 25, 32, 50, 80, 100 mm
Flange Connection Type Caliber Selection: 100, 150, 200 mm
Flow Measurement Range: Normal Measurement Flow Velocity Range - Reynolds Number 1.5×10^4~4×10^6; Gas: 5~50m/s; Liquid: 0.5~7m/s.
Normal Measurement Flow Range: Liquid
Gas Flow Measurement Range: See Table 2.
Steam Flow Range: See Table 3.
Measurement Accuracy: Class 1.0, Class 1.5
Measured Medium Temperature:
Room Temperature: -25ºC~100ºC; High Temperature: -25ºC~150ºC, -25ºC~250ºC Output Signal: Pulse Voltage Output Signal, High Level 8~10V, Low Level 0.7~1.3V Pulse Duty Cycle is about 50%, Transmission Distance is 100m
Pulse Current Remote Transmission Signal: 4-20 mA, Transmission Distance is 1000m Instrument Use Environment: Temperature: -25ºC~+55ºC, Humidity: 5~90% RH, 50ºC Material: Stainless Steel, Aluminum Alloy
Power Supply: DC24V or Lithium Battery 3.6V
Explosion-Proof Grade: Intrinsically Safe iaIIbT3-T6, Protection Level IP65.
| Technical parameters | |
| Medium | Steam, Gas, Liquid |
| Measuring range | See flow1-3 |
| Caliber | DN15, DN25, DN40, DN50, DN80, DN100, DN200, DN250, DN300 |
| Medium pressure | ≤100 bar, more pressure need be customized |
| Medium temperature | -40°C~+240°C |
| Ambient temperature | Ordinary type: -40°C~+85°C Ex-proof type: -40°C~+60°C |
| Accuracy | Liquid, Re≥20000 is ±1.0%, gas and steam, ±1.5% |
| Repeatability | ±0.3% |
| Material | Measuring pipe:304,316L, HC276 |
| Sensor: 316L, HC276 | |
| Converter shell: casting aluminum | |
| Instrument caliber | Flange connection: DN15-DN300 |
| Clamping connection: DN15-DN100 | |
| Flange standard | DIN, ANSI, HG20592 (Can be customized) |
| Pressure loss Gasandliquid saturated steam |
ΔP=Cqv²Px ΔP: pressure loss(pa) qv: volume flow qm: mass flow ΔP=Cqm²Px PX: density C: constent |
| Display | Two-line LCD display, four button operation Instantaneous flow, accumulated flow, vortex frequency, medium temperature, pressure(selectable), circular or non-circular display |
| Power supply | Ordinary type: (14~36) VDC Ex-proof type: (14~30) VDC Battery power supply |
| Loading | No-ex-proof: RB=(UB-14DVC)/22MA≤1200Ω Ex-proof: RB=(UB-14DVC)/22MA≤600Ω |
| Output | Two wire 4~20mA |
| Ex-proof class | Exd II CT6 CE19.1438 Ex ( ia ) II CT6 |
| Cable interface | 1/2''NPT( Internal thread, recommended), M201.5 (Internal thread) |
| Housing protection class | IP67 |
| Connection type | Flange (DN15-DN300), Clamping (DN15-DN100) |
| Mounting type | Integral mounting, split mounting (special shielded cable connect the pipe and indicator) |
| Gas | |||
| Air: t=20°C p=1.013bar abs =1.7210-4 mpa.s Q: flow (sheet 1) | |||
| Nominal diameter | Internal diameter | Qmin(m3/h) | Qmax(m3/h) |
| DN15 | 16 | 6.79 | 32.56 |
| DN25 | 24 | 10.20 | 113.94 |
| DN40 | 38 | 25.3 | 326.63 |
| DN50 | 50 | 43.89 | 565.49 |
| DN80 | 74 | 96.14 | 1238.64 |
| DN100 | 97 | 165.14 | 2128.27 |
| DN150 | 146 | 374.23 | 4821.57 |
| DN200 | 193 | 702.95 | 9056.8 |
| DN250 | 253 | 1123.7 | 14478 |
| DN300 | 305 | 1632.1 | 21028 |
| Liquid | |||
| Water: t=20°C p=1.013bar abs ≤10cp Q: flow | |||
| Nominal diameter | Internal diameter | Qmin(m3/h) | Qmax(m3/h) |
| DN15 | 16 | 0.45 | 5 |
| DN25 | 24 | 0.81 | 11.40 |
| DN40 | 38 | 2.04 | 28.57 |
| DN50 | 50 | 3.53 | 49.47 |
| DN80 | 74 | 7.74 | 108.37 |
| DN100 | 97 | 13.30 | 186.21 |
| DN150 | 146 | 30.13 | 421.86 |
| DN200 | 193 | 52.66 | 792.42 |
| DN250 | 253 | 90.5 | 1266.8 |
| DN300 | 305 | 113.41 | 1839.8 |
| Saturated steam | |||||||||
Nominal Diameter |
Inner Diameter |
Mass flow Qm (kg/h) under different pressure and density | |||||||
| P=1bar G | P=3.5bar G | P=5.2bar G | P=7 bar G | ||||||
| ρ=1.13kg/m3 | ρ=2.43kg/m3 | ρ=3.28kg/m3 | ρ=4.17kg/m3 | ||||||
| t=120.6°C | t=148.2°C | t=160.4°C | t=170.6°C | ||||||
| min | max | min | max | min | max | min | max | ||
| DN15 | 16 | 5.87 | 36.97 | 7.68 | 79 | 8.93 | 106.68 | 10.06 | 135.69 |
| DN25 | 24 | 11.82 | 129.39 | 17.26 | 276.4 | 20.09 | 373.53 | 22.66 | 474.82 |
| DN40 | 38 | 29.64 | 370.71 | 43.33 | 792.33 | 50.63 | 1070.2 | 56.8 | 1361.2 |
| DN50 | 50 | 51.31 | 641.82 | 75.02 | 1371.8 | 87.19 | 1852.8 | 98.33 | 2356.6 |
| DN80 | 74 | 112.41 | 1405.8 | 164.33 | 3004.7 | 191 | 4058.4 | 215.39 | 5161.8 |
| DN100 | 97 | 193.14 | 2415.5 | 282.36 | 5162.7 | 328.16 | 6973.3 | 370.09 | 8869.2 |
| DN150 | 146 | 437.56 | 5472.4 | 639.69 | 11696 | 743.45 | 15798 | 838.44 | 20093 |
| DN200 | 193 | 821.91 | 10279 | 1201.6 | 21970 | 1396.5 | 29675 | 1574.9 | 37743 |
| DN250 | 253 | 1313.9 | 16433 | 1920.9 | 35122 | 2232.5 | 47439 | 2517.7 | 60337 |
| DN300 | 305 | 1908.3 | 23866 | 2789.8 | 51010 | 3242.4 | 68899 | 3656.6 | 87630 |
Nominal Diameter |
Inner Diameter |
Mass flow Qm (kg/h) under different pressure and density | |||||||
| P=10.5 bar G | P=14 bar G | P=17.5 bar G | P=20 bar G | ||||||
| ρ=5.89kg/m3 | ρ=7.6kg/m3 | ρ=9.32kg/m3 | ρ=10.54kg/m3 | ||||||
| t=186.2°C | t=198.5°C | t=208.5°C | t=215.6°C | ||||||
| min | max | min | max | min | max | min | max | ||
| DN15 | 16 | 12.78 | 191.71 | 16.51 | 247.55 | 20.23 | 303.36 | 22.89 | 343.32 |
| DN25 | 24 | 26.93 | 670.88 | 30.6 | 857.88 | 33.87 | 955.48 | 36.04 | 1201.41 |
| DN40 | 38 | 67.51 | 1878.2 | 76.72 | 2150.7 | 84.93 | 2395.3 | 90.35 | 2557.7 |
| DN50 | 50 | 116.89 | 3251.7 | 132.82 | 3723.4 | 147.03 | 4147 | 156.42 | 4428.1 |
| DN80 | 74 | 256.03 | 7122.4 | 290.93 | 8155.8 | 322.06 | 9083.7 | 342.62 | 9699.3 |
| DN100 | 97 | 439.91 | 12238 | 499.9 | 14013 | 553.38 | 15608 | 588.69 | 16666 |
| DN150 | 146 | 996.62 | 27725 | 1132.5 | 31747 | 1253.7 | 35359 | 1333.7 | 37756 |
| DN200 | 193 | 1872.1 | 52079 | 2127.3 | 59634 | 2354.9 | 66419 | 2505.2 | 70921 |
| DN250 | 253 | 2992.7 | 83254 | 3400.71 | 95333 | 3764.6 | 106180 | 4004.9 | 113380 |
| DN300 | 305 | 4346.5 | 120920 | 4939.1 | 138460 | 5467.5 | 154210 | 5816.5 | 164660 |
| Selection list | ||||||||
| model | Explanation | |||||||
| ZZY30 | ||||||||
| Connection | F | Flange connection | ||||||
| W | Flange clamping | |||||||
| Temperature Resistance Class |
T1 | Match with 250°c probe | ||||||
| T2 | Match with 350°c probe | |||||||
Nominal diameter |
015 | DN15 | ||||||
| 020 | DN20 | |||||||
| 025 | DN25 | |||||||
| 032 | DN32 | |||||||
| 040 | DN40 | |||||||
| 050 | DN50 | |||||||
| 065 | DN65 | |||||||
| 080 | DN80 | |||||||
| 100 | DN100 | |||||||
| 125 | DN125 | |||||||
| 150 | DN150 | |||||||
| 200 | DN200 | |||||||
| 250 | DN250 | |||||||
| 300 | DN300 | |||||||
Structure |
Z | Integrated T and P compensation | ||||||
| F | Regular model | |||||||
| S | Split | |||||||
| Material | R1 | 304 | ||||||
| RL | 316L | |||||||
Instrument model |
N | 24V power supply Output 3 wire pulse | ||||||
| V1 | 24V power, on-site display, 4-20mA, RS485, Impulse output | |||||||
| V1 B |
24V +battery power supply, on-site display, 4-20 mA, RS485, pulse output | |||||||
| Pressure Class | N | Normal | ||||||
| H | High pressure | |||||||
PACKING & SHIPPING
We will deliver your ordered product at the earliest date as per your requirements, ensuring prompt and timely service to meet your project deadlines.
Installation Requirements
Piping Condition
The installation of the vortex flowmeter requires a specific length of straight pipe both before and after the meter. The common requirements are as follows (D indicates the diameter of the pipe):
| Piping condition | upstream | Downstream |
| Concentric shrinkage pipe full open gate valve |
15D | 5D |
| ∠90° square elbow | 20D | 5D |
| Same plane 2∠90°elbow | 25D | 5D |
| Semi-open gate valve regulating valve | 50D | 5D |
| Different plane 2∠90°elbow | 40D | 5D |
| With rectifier tube bundle | 12D | 5D |
1.
The sensor should be mounted on a horizontal, vertical, or inclined pipe (with liquid flowing from bottom to top) that has the same diameter as the sensor. Ensure a straight pipe section of 15-20D upstream and 5-10D downstream of the sensor.
2.
The pipe near the liquid sensor must be completely filled with the liquid being measured.
3.
Avoid installing the sensor on pipes subject to strong mechanical vibrations.
4.
The inner diameter of the straight pipe section should closely match the sensor diameter. If an exact match isn't possible, use a slightly larger diameter pipe with an error of ≤3% and not exceeding 5mm. Do not install the sensor in areas with strong electromagnetic interference, restricted space, or where maintenance is inconvenient..
5.
Horizontal pipeline installation is the most common for flow sensors. For gas flow with small amounts of liquid, mount the sensor at a higher point in the pipeline. For liquid flow with small amounts of gas, mount the sensor at a lower point.
6.
For vertical pipeline installations, the sensor can be installed without flow direction constraints for gas flow. If the gas contains some liquid, the flow should be from bottom to top. For liquid flow, ensure the flow is from bottom to top to prevent additional weight on the probe.
7.
Side installation on horizontal pipelines is possible for all fluids, including superheated steam, saturated steam, and low-temperature liquids. Side mounting is preferred where feasible as it reduces temperature impact on the amplifier.
8.
Inverted installation on horizontal pipelines is generally discouraged. It is unsuitable for general gases or superheated steam but can be used for saturated steam or high-temperature liquids and in situations requiring frequent pipeline cleaning.
9.
When measuring high-temperature steam, ensure the insulation layer doesn't exceed one-third of the bracket height for sensor installation.
10.
Selecting pressure and temperature measurement points: Depending on the requirements, the pressure measurement point should be 3-5D downstream of the sensor, and the temperature measurement point should be 6-8D downstream.
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