Wafer Vortex Flow Meter with integrated temperature and pressure compensation

Wafer-Vortex-Shedding-Flow-Meter-split-temperature-and-pressure-compensation

Wafer Vortex Flow Meter with temperature compensation

Wafer-Vortex-Shedding-Flow-Meter-No-Compensation

Wafer Vortex Shedding Flow Meter – Low Installation Cost

The Wafer Vortex Shedding Flow Meter does not have a connecting flange. When connecting to the pipeline, the flow meter is clamped between two special flanges and then tightened with bolts. Installation cost is low and very convenient.

1. It is characterized by small size and simple and compact structure;
2. Special flanges and fastening bolts are also provided, so the installation cost is low and the installation is very convenient;
3. The instrument can be installed horizontally, vertically or tilted on the pipeline;
4. Can be configured with split or integrated temperature and pressure compensation;
5. -40℃~350℃ are available; DIS, ANSI, JIS flange standards can be customized.

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Wafer Vortex Shedding Flow Meter Description

Wafer Vortex Shedding Flow Meter is a commonly used structural form. The meter body itself does not have a connecting flange. When connecting to the pipeline, clamp the flowmeter between two special flanges and tighten with bolts.

Wafer Vortex Shedding Flow Meter is characterized by its small size and simple and compact structure. Special flanges and fastening bolts are also provided, so the installation cost is low and the installation is very convenient.

Sino-Inst’s Wafer Vortex Shedding Flow Meter supports customization of DN15~DN300. Suitable for measuring mass flow and volume flow of superheated steam, saturated steam, compressed air, general gases, water and liquids. Configurable temperature and pressure compensation.

Wafer Vortex Flow Meter Data Sheet

Performance	Technical Parameters
Measuring medium	Steam, compressed air, liquid (single-phase medium)
Medium temperature	-40℃～+350℃
Medium pressure	1.6, 2.5, 4.0Mpa
Turndown	1:8～1-30 (reference to air under standard conditions) 1:8～1:40 (reference to normal temperature water)
Measuring range	Liquid 0.4～0.7m/s Gas 4.0～60m/s Steam 5.0～70m/s
Specification	DN15～DN300mm
Material	304, 316L various materials
Reynolds number	Normal 2104Cd～7106
OK	Cd≤2.6
Vibration acceleration	≤0.2g
Protection level	IP65
Explosion-proof level	(ia) II CT6
Accuracy	Level 1.0, Level 1.5
Environmental conditions	ambient temperature	-40℃～+55℃ (non-explosion-proof place) -20℃～+55℃ (explosion-proof place)
	Relative humidity	≤85%
	Atmospheric pressure	86～106Kpa
Power supply	+12VDC (three-wire pulse output)
	+24VDC (three-wire pulse output, two-wire 4~20mA output, four-wire RS485 communication)
	3.6V lithium battery, dual power supply
Output signal	Frequency pulse signal 2～3000Hz, low level ≤1V, high level ≥6V
	Two-wire 4-20mA signal (isolated output), load ≤500Ω

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Sino-Inst’s vortex flowmeter series products are easy to install and maintain. Reliable in long-term operation. Have small pressure loss, low operating costs, and are more energy-saving.

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Wafer Vortex Shedding Flow Meter Applications

Wafer Vortex Shedding Flow Meter is used for process measurement and energy-saving management of various low-viscosity liquids, gases, steam and other single-phase fluids.

Compressed air measurement
Compressed air is mostly converted from electrical energy or thermal energy through a compressor. When measuring compressed air with vortex flow, you must pay attention to several points.
First, the flow rate range must be calculated, and the vortex flowmeter must be selected based on the flow rate of the fluid. Also consider temperature, humidity, and electromagnetic interference.
Secondly, when measuring compressed air with a vortex flowmeter, mechanical vibration needs to be avoided.
Finally, the installation location of the vortex flowmeter is also a major factor affecting accurate measurement. When installing, be sure to ensure the requirements for the front and rear straight pipe sections.
Steam flow measurement
In steam systems, vortex flowmeters can accurately measure steam flow and help monitor and optimize energy consumption. Configure temperature and pressure compensation for more accurate measurement.
When using a vortex flowmeter to measure steam, the meter body and pipes must be insulated, and the flanges must be clamped to prevent air leakage, otherwise the meter will be easily damaged.
Chemical liquid measurement
In chemical production, vortex flowmeters are usually used to measure the flow of liquid media, such as chemical raw materials, solvents, water, etc.
These liquid media often have different viscosities, densities and chemical properties, and vortex flowmeters can adapt to these different media properties and provide stable measurement performance.
By monitoring the flow changes of fluids in real time, vortex flowmeters can help achieve refined control of the chemical production process and ensure product quality and production efficiency.

Wafer Vortex Shedding Flow Meter - Low Installation Cost Detail Display

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Vortex Shedding Flow Meter Selection Guide

When selecting a Vortex Shedding Flow Meter, you mainly need to confirm the following parameter requirements:

Measurement medium
The vortex flowmeter is a velocity flowmeter that utilizes the principle of Karman vortex. When the medium passes through the vortex generator, small vortices will be formed behind it. The number of vortices can be converted into the flow rate of the medium. Then it is converted into the flow rate of the medium.
Its principle determines the type of measurement medium, which can be liquid, gas or steam. At present, most industrial applications, such as nitrogen, compressed air, steam, thermal oil, etc., are mostly measured by vortex flowmeters.
Pipe diameter
Vortex flowmeters can be installed in pipeline or plug-in types according to different installation methods.
For the pipe type, the pipe diameter is the same as that of most other flow meters. The small one is DN15, and the larger one can reach DN300.
If you need a larger caliber, you can choose plug-in installation. The conventional caliber range can reach DN2000. Calibers above DN2000 are supplied according to the agreement.
Measurement accuracy
The accuracy of vortex flowmeters also has several levels, and they are divided according to the measurement medium.
If the pipe-type vortex flowmeter is measuring liquid, the measurement accuracy can reach level 1.0, and if it is measuring gas, the accuracy can reach level 1.5.
If it is an insertion vortex flowmeter, the accuracy can reach level 1.5 and level 2.5.
Medium temperature
Generally speaking, it is divided into three ranges: normal temperature, medium temperature and high temperature.
The temperature ranges are -40~100℃ (normal temperature), 100~250℃ (medium temperature), and 100~350℃ (high temperature).
If the on-site medium temperature is higher, such as some superheated steam, an orifice flowmeter can be used to measure it.
Nominal pressure
It is mainly divided according to the installation method. The main demand in the market is as follows: such as flange Wafer type (2.5MPa), flange connection type (1.0/1.6/2.5MPa), plug-in installation type (1.6MPa/2.5MPa/ 4.0MPa).
Power supply
Mainly include +12VDC (three-wire pulse output), +24VDC (three-wire pulse output type and two-wire current output type), 3.6V lithium battery, and dual power supply.
Output signal
Mainly include voltage frequency pulse output, two-wire 4-20mA output and HART output.
In addition, some occasions may require digital output, and we can also provide RS485 communication via modbus.

What is the pressure drop on a vortex shedding flow meter?

Pressure loss, also known as pressure drop and pressure loss, is a technical and economic indicator indicating the amount of energy consumed by a flow meter. It is expressed by the total pressure difference of the fluid at the inlet and outlet of the flow meter. It essentially reflects the mechanical energy consumed by the medium passing through the flow meter.

Causes of pressure loss in vortex flowmeters
1. The medium flows through the vortex flowmeter to form a dead water area or vortex area. The medium does not participate in the main flow in this area, but continuously swirls, accelerates friction, causes particle collision, and causes local energy loss;
2. When the medium flows through the vortex flowmeter, the size and direction of the flow velocity change drastically. The velocity distribution pattern on each section also changes constantly, causing additional friction and consuming energy.