High Temperature Flow Meter is suitable for high temperature flow monitoring. Suitable for high temperature, high pressure, safety and explosion-proof.
The High Temperature Flow Meter uses a split signal converter. The way the vortex body is separated from the vortex converter. The Vortex Split High Temperature Flow Meter is suitable for high temperature, high pressure, safety and explosion-proof applications, where you need to watch the meter data on site. It is widely used in the measurement of steam, gas and liquid. And inconvenience Under complex conditions of reading data.
Vortex Split High Temperature Flow Meter reference price: USD 500-1500/pc.
Sino-Inst offers a variety of Vortex flow meters for flow measurement. If you have any questions, please contact our sales engineers.
Features of Vortex Split High Temperature Flow Meter
- Not affected by temperature and pressure. At the same time, it is not easy to block and scale. It is resistant to high temperature and high pressure, and is suitable for harsh environments.
- The product has no wear, dirt resistance, no mechanical maintenance, and long service life.
- The current output is electrically isolated, with good common mode interference suppression.
- It can accurately measure the flow of gas, liquid and steam in a wide flow range without being affected by the physical properties of the fluid.
- Simultaneous display of flow value and accumulated flow value, no need to switch in turn.
- Adopt anti-vibration probe to effectively eliminate the influence of external vibration.
- Using split signal converter, the cable length is 10 meters.
- The circuit adopts surface mount technology, compact structure and high reliability.
Specifications of Vortex Split High Temperature Flow Meter
| Measuring medium | Superheated/saturated steam, liquid and gas |
| Measuring range | See flow range table for details |
| caliber | Wafer type/flange type: DN15~DN400 |
| Medium temperature (℃) | (-40~80)℃, (-40~150)℃, (-40~300)℃, (-40~400)℃ |
| Environment temperature (℃) | (-20~+70)°C atmospheric pressure: 86kPa~106kPa |
| Nominal pressure | Liquid 1.6MPa, 2.0MPa, 2.5MPa, 4.0MPa, 5.0MPa, 6.3MPa, 10.0MPa, 25MPa Gas and steam 1.6MPa, 2.0MPa, 2.5MPa, 4.0MPa, 5.0MPa |
| Accuracy | ±1.0%, ±1.5% |
| Flow rate range (m/s) | Liquid: 0.15~7 Gas: 1.5~60 Steam: 2~70 |
| output signal | Three-wire voltage pulse: high level≥5V low level<1V Standard current signal: (4-20) mA standard current signal proportional to the flow rate, local display flow, cumulative flow. And output proportional to the flow rate (4-20) mA standard current signal and pulse frequency signal Communication method: RS-485 communication |
| Power supply | Three-wire voltage pulse: DC12V, DC24V Standard current output, local display: DC24V Battery power supply (lithium battery): 3.6V |
| Ambient temperature | (-20~+70)°C atmospheric pressure: 86kPa~106kPa |
| Protection level | IP65 |
| Explosion-proof grade | Intrinsically safe Ex ia ⅡC T6 Ga |
| display | LCD display instantaneous flow, cumulative flow, vortex frequency, temperature and pressure (integrated temperature and pressure) |
| Cable interface | M20×1.5 (internal thread, recommended); 1/2NPT (internal thread) |
| Installation form | Integrated installation; split installation (the measuring tube and the indicator are connected by a 10-core special shielded cable) |
Extended reading: Vortex Hygienic Flow Meter
Vortex Split High Temperature Flow Meter Applications
The split display type vortex flowmeter (external power supply, internal battery power supply) can measure almost all conductive, non-conductive, sound-conducting, non-sound-conducting, low-temperature, high-temperature, and viscous media, such as liquid, gas, and steam.
Split display type vortex flowmeter (external power supply, internal battery power supply) is widely used in schools, research institutes, food plants, chemical plants, petroleum, metallurgy, coal mines, pharmaceutical plants, hotels, restaurants, power plants, steel plants, etc. Large and small enterprises in various industries.
The split display type vortex flowmeter is an ideal product for obtaining data from scientific research experiments, real-time measurement of equipment consumption, factory performance evaluation, energy saving and emission reduction, and trade settlement between A and B.
Read more about: Vortex Shedding Flow Meter Working Principle
More Featured High Temperature Flow Meters
Here we simply list the temperature of the following different types of high temperature flow meters:
- Thermal mass flow meter :max 300℃ (572℉)
- Coriolis mass flow meter: max 350℃ (662 ℉)
- Vortex flow meter: max 350°C (662 ℉)
- Balanced flow meter: max 800℃(1472 ℉)
- Magnetic flow meter :max 160℃ (320 ℉)
- Liquid Turbine flow meter: max 150℃ (302 ℉)
- Oval gear flow meter:max 200℃ (392 ℉)
- Variable Area Flow Meter/Metal Tube Rotameter: max 300℃ (572℉)
- Gas turbine flow meter: max 80℃(176℉)
Please note: high temperature flow sensor is customized ,not standard type. If you need to measure high temperature, please contact Sino-Inst sales engineer.
High temperature mass flow meter
The thermal gas mass flow meter is designed based on the principle of thermal diffusion, which uses the constant temperature difference method to accurately measure the gas. The sensor part consists of two reference grade platinum resistance temperature sensors. Thermal gases are widely used in factory compressed air, blast furnace gas measurement in ironworks, and monitoring and measurement of chimney flue exhaust.
High temperature ultrasonic flow meter
The clamp-on ultrasonic flowmeter composed of wall-mounted host and clamp-on flow sensor can be widely used in various water treatment industries. Applied to online measurement of various liquid volume flow. The main unit and the sensor are installed separately: the sensor is installed on the pipeline, the wall-mounted main unit is installed indoors or in the instrument box, and the main unit and the sensor are connected with an ultrasonic special cable. It is currently the most widely used ultrasonic flowmeter.
High temperature water flow meter
Magnetic Water Flow Meter provide highly accurate flow measurement for a wide variety of conductive fluid applications. Magnetic Water Flow Meter is a volumetric flow meter that measures liquids or liquid slurries that have a minimum conductivity of 5 µS/cm. Based on Faraday’s law of electromagnetic induction. Magnetic Water Flow Meter is ideal for wastewater applications or any dirty liquid which is conductive or water based. It is widely used in water treatment, environmental protection sewage measurement and control, papermaking and other industrial and agricultural production processes for flow measurement and control.
High temperature turbine flow meter
Liquid turbine flow meter is the main type of impeller type flow (velocity) meter. It is composed of sensors and conversion display. The sensor uses a multi-blade rotor to sense the average flow rate of the fluid, thereby deriving the flow or total amount. Liquid turbine flow meter is suitable for measuring liquids that are not corrosive to stainless steel 1Cr18Ni9Ti, 2Cr13 and corundum Al2O3 in closed pipelines and are free of impurities. For milk, soybean oil, edible oil, diesel, purified water.
Sino-Instt offer over 10 High Temperature Flow Meters, with Best Price.
A wide variety of High Temperature Flow Meters options are available to you, such as free samples, paid samples. All of our flow meters can wokrk with the AMS NEW TREX.
Sino-Inst is High Temperature Flow Meter suppliers, located in China. High Temperature Flow Meter products are most popular in North America, Mid East, and Eastern Europe.
Wu Peng, born in 1980, is a highly respected and accomplished male engineer with extensive experience in the field of automation. With over 20 years of industry experience, Wu has made significant contributions to both academia and engineering projects.
Throughout his career, Wu Peng has participated in numerous national and international engineering projects. Some of his most notable projects include the development of an intelligent control system for oil refineries, the design of a cutting-edge distributed control system for petrochemical plants, and the optimization of control algorithms for natural gas pipelines.