Phone
Saeed Lanjekar
01 Jul, 2025
9 minutes
A flow meter is a device used to measure the flow rate of liquids or gases in a pipe. It helps determine how much fluid passes through at any given time, it measures the volume or mass of a gas or liquid. In different industries, flow meters are called flow gauges, flow indicators, liquid meters, flow rate sensors, etc. All of them, however, measure flow.
With the best flow meters, fluid measurement can be more precise, accurate, and efficient. It is not uncommon for industrial applications to require precise quantity calculations to be made. Nonetheless, a vineyard may only need a 5% to 10% degree of accuracy if the goal is to measure water flow to the vineyard.
It is important to note that no “universal” flow meter can be used for all applications. So you must be aware of the critical and technical specifications before you purchase one.
This article will guide you through everything you need to know about flow meters, helping you choose the best one for your specific needs.
Flow meters provide a very accurate reading of the flow rate of liquids or gases. This accuracy is crucial for industries in which even slight changes may affect quality, for example, in chemical manufacturing or water treatment processes.
It is achieved by continuously observing the flow of fluids, Flowmeters enable companies to detect inefficiencies in advance which may come in the form of leaks or blockage, and save precious time, energy, and resources.
The use of flow meters minimizes waste, as it ensures only the needed amount of the fluid is used. This can mean huge savings in industries such as oil and gas or food processing.
Flow meters control the flow rate of hazardous fluids, such as chemicals or gases by flow meters, and help to reduce or stop accidents by not allowing the flow rate to exceed the prescribed limits.
Most industries have strict guidelines and regulations concerning the usage of fluids and gases. Flow meters can help to meet these standards.
Chemical Industry: Flow meters are used in chemical plants to control the flow of liquids and gases.
Pulp and Paper Industry: Flow meters maintain the required quantity of water and chemicals necessary for processing the wood pulp into paper.
Power Plants: The flow meters are being used in power plants to measure the water, steam flow, and fuel flow.
Food Processing: Flow meters are used in food processing industries to measure the flow of liquids such as water, milk, juice, or oils within the flow in food factories.
Pharmaceutical Industry: During the production of drugs, flowmeters control the flow of substances to maintain accuracy and safety.
Textile Industry: In the manufacture of fabrics, flow meters measure water, dyes, and chemicals.
Water and Wastewater Treatment: Flow meters are installed in piping and vessels to ensure the adequate flow of clean water and treated wastewater, eliminating overuse or contamination.
Petroleum Industry: Flow meters measure the flow of crude oil, natural gas, and refined products in pipelines and storage tanks.
Steel Industry: A steel mill uses a flow meter to gauge how much gas has been put into making a product
Renewable Energy, Automotive Industry, Aeronautics Industry, etc are the various industries that use flow meters to ensure accuracy, enhance efficiency, and minimize waste.
A thermal mass flow meter uses heat to determine the speed at which a gas or liquid is moving. It has a tiny heater inside the pipe. The heater cools when the gas or liquid passes over it and it cools quickly when the flow is fast. In this way, it determines how quickly the gas or liquid is flowing by measuring the amount of heat lost.
Principle: Heat transfer
Working: The thermal mass flow meter measures gas mass flow by monitoring how much heat is lost as the gas flows through the pipe. It essentially consists of two temperature sensors and a heater element.
One sensor measures fluid temperature before it passes the heater and the other measures the temperature after. When gas flow is over the heater, it absorbs heat. The quicker that moves, the more heat it will carry away.
Measurement of the differential temperature before and after heating provides the flow meter with the data to calculate the mass flow rate of a gas.
Applications: Ideal for measuring the flow of gases, particularly in HVAC (Heating, Ventilation, and Air Conditioning) systems and industrial applications.
A Coriolis mass flow meter works on the principle of Coriolis force, which is named after French scientist Gaspard-Gustave de Coriolis, who discovered it. This flow meter has two pipes in its structure and it measures how much liquid or gas is flowing by feeling how it twists the pipe as it moves. The flow meter has vibrating tubes inside of it. The tubes twist slightly as the liquid or gas passes through them. The more liquid or gas flows the more it twists.
Principle: Coriolis effect
Working: The Coriolis mass flow meter relies on the utilization of the Coriolis force. Inside, the meter contains tubes that are vibrating at a fixed frequency.
As fluid gas and liquid pass through the tubes, their mass flow induces a slight twist or bend in the tubes, changing their vibration. This twisting is due to the Coriolis force acting on the fluid as it moves through the vibrating tubes.
The degree of twisting is directly proportional to the mass flow rate. Sensors measure the phase shift (the change in vibration) to calculate the mass flow.
Applications: Commonly used in oil, gas, and chemical industries for precise mass flow measurement.
A vortex flow meter works by watching the swirls made by liquid or gas as it flows through a pipe. A little object in the center of the pipe causes the liquid to spin and form tiny vortices, or whirlpools. The flow meter measures the number of swirls to determine how much liquid or gas is flowing.
Principle: Vortex shedding.
Working: The vortex flow meter measures the flow rate by observing the vortices (swirls) created as the fluid flows inside the pipe.
As the fluid flows around this object, alternating vortices are generated on each side of the object. These vortices form a repeating pattern of low and high-pressure zones, causing vibrations that are detected by a sensor.
The frequency of the vortex is directly proportional to the flow rate, it allows the meter to calculate the flow of the fluid.
Applications: Suitable for gas, liquid, and steam in water treatment, chemical processing, and HVAC systems, among other sectors.
A cone-shaped item is located inside the pipe of a cone flow meter. When liquid or gas passes through the cone, The pressure changes. This change in pressure is measured by the flow meter to determine the volume of liquid or gas passing through.
Principle: Differential pressure
Working: The cone flow meter operates by creating a differential pressure drop as the fluid flows through a cone-shaped obstruction inside the pipe. The fluid's velocity increases and its pressure drops as it moves past the cone's narrowest point. Then the sensors placed before and after the cone measure this pressure differential.
Applications: Frequently used in high-pressure settings for steam, gas, and oil flow measurements.
Magnets are used in electromagnetic flow meters to measure flow. A little electric signal is produced when a liquid that conducts electricity (such as water) passes through the magnetic field. The signal gets stronger as the liquid flows faster. This signal is read by the flow meter to determine the flow.
Principle: Faraday’s Law of Electromagnetic Induction
Working: An electromagnetic flow meter is based upon Faraday's Law, wherein a voltage is induced on a conductive liquid moving perpendicularly through a magnetic field.
In the electromagnetic flow meter shown here, electrodes are mounted on the walls of the pipe and a magnetic field is imposed across the pipe. The water or any other conductive liquid, according to Faraday's law of electromagnetic induction, will induce a voltage proportional to the velocity of flow while passing through the magnetic field.
The faster the liquid moves, the higher the voltage. This voltage is measured and converted into flow.
Applications: Ideal for conductive liquids, such as water and wastewater, which are frequently utilized in municipal water systems.
A tiny fan, or turbine, is located inside the pipe of a turbine flow meter. The fan rotates when liquid or gas flows. The fan spins more quickly the faster the flow. To determine the flow rate, the flow meter counts the number of times the fan rotates.
Principle: Mechanical rotation
Working: A turbine flow meter has a small rotor or fan that is installed inside the pipe. Thus, when fluid flows through the pipe it touches the blades of the turbine, causing it to rotate.
The rotation rate is proportional to the flow velocity of the fluid. Sensors detect the rotational speed of the turbine; these data are utilized to calculate the flow rate. The faster the turbine spins, the higher the flow rate.
Application: Extensively utilized in sectors requiring the measurement of liquids and gases, such as chemical processing, water distribution, and oil and gas.
There are two oval-shaped gears inside an oval gear flow meter. The movement of liquid or gas causes these gears to rotate. To determine how much liquid is flowing, the flow meter counts the number of times the gears revolve.
Principle: Positive displacement
Working: The oval gear flow meter consists of two oval-shaped gears that, when the fluid passes through the meter, rotate.
The liquid or gas pushes these gears to rotate within the chamber. Each rotation passes a fixed volume of fluid through the meter. It is the meter that counts the number of gear rotations and calculates the volume of fluid that has been passed through the system. Oval gear flow meters are highly accurate and, thus very reliable.
Application: Frequently employed in sectors requiring accurate volumetric measurements, such as chemical manufacture, food processing, and oil and gas.
Orifice, Venturi wedge, Ultrasonic, Rota meter, etc are the different types of flow meters.
Flow meters are essential to many different industries because they provide precise measurement, increased productivity, and enhanced process control.
Whether you're measuring gas, water, or more complicated fluids, it's critical to select the appropriate flow meter depending on your unique requirements. There are several types of flow meters available. An appropriate flow meter can improve safety and cut waste, among other things, greatly benefiting your business.
If you are looking for the ideal flow meter for your requirements? You can explore Burak Metering's products one of the leading manufacturers of flow meters or you can get in touch with our team for expert guidance!
I’m Saeed Lanjekar, founder of Burak Metering. With a background in engineering and technology, I’ve dedicated my career to creating advanced metering solutions that push the boundaries of accuracy and efficiency. At Burak Metering, we’re committed to delivering top-notch technology and driving innovation in the metering industry.
A thermal mass flow meter is a specialized instrument used to measure the flow rate of gases. It operates by heating a sensor in the fluid's path and…
Learn More
A vortex flow meter is a sophisticated device used to measure the flow rate of fluids, including liquids, gases, and steam, within pipelines or condu…
Learn More
An electromagnetic flow meter is an instrument designed for accurately measuring the flow rate of conductive liquids, such as water or various indust…
Learn More
A turbine flow meter is a precision instrument designed to measure the flow of liquids, typically in a pipeline. It operates on the principle of a fr…
Learn More
The oval gear flow meter is a precision instrument used to measure liquids' flow rate in various industrial applications. It operates on positive dis…
Learn More
An ultrasonic level transmitter is an innovative device used to gauge the level of liquid or solid substances within a container or tank. With its no…
Learn More
A capacitance level transmitter is a precision instrument that measures levels of liquids, solids, or slurry substances within tanks or containers. I…
Learn More
A hydrostatic level transmitter is an instrument used to measure fluid levels within tanks or containers by utilizing the pressure exerted by the liq…
Learn More
An infrared gas detector is a device used to detect the presence of gases in an area, often as part of a safety system. These detectors can be portab…
Learn More
A Coriolis mass flow meter is a highly accurate instrument used to measure the mass flow rate of fluids, including liquids, gases, and slurries. It w…
Learn More
The Burak BV-5000 Series Cone Meters are designed to measure a variety of fluids, including gases, liquids, and vapors. These meters utilize differen…
Learn More
An orifice flow meter measures fluid flow by creating a pressure drop across a precisely machined orifice plate installed in the flow path. As the fl…
Learn More
The Burak BN-6000 Series Venturi Flow Meters are designed to measure gases, liquids, and vapors using differential pressure to ensure accurate and re…
Learn More
The Rotary Positive Displacement (RPD) Gas Meter is a highly accurate and dependable solution for measuring gas flow across a variety of industrial a…
Learn More
The Turbine Gas Meter is a highly efficient and accurate device designed for gas flow measurement across various industrial applications. It operates…
Learn More
The BU-7010 Series Ultrasonic Gas Flow Meter is a highly accurate solution for measuring gases such as biogas, natural gas, LPG, and propane and othe…
Learn More
The HMTT-100 Head-Mounted Temperature Transmitter measures temperature and converts it into a standardized analog electrical signal, typically a 4-20…
Learn More
A flame detector is a specialized sensor designed to detect the presence of an open flame by analyzing the radiation emitted during combustion. It pl…
Learn More
Inline Thermal Mass Flow Meter
Inline Thermal Mass Flow Meter
Insertion Thermal Mass Flow Meter
Inline Thermal Mass Flow Meter
Inline Thermal Mass Flow Meter
Vortex flow meter with temperature and pressure compensation
Vortex flow meter with Flange connection
Vortex flow meter with Triclover connection
Electromagnetic Flow Meter with intergral display
Electromagnetic Flow Meter with remote display
Turbine flow meter with flange connection
Turbine flow meter with screwed connection
Turbine Flow Meter with Triclover Connection
Oval Gear Flow Meter with Remote Display
Infrared Gas Detector
Gas Flow Meter with Flange Connection
Gas Flow Meter with Screwed Mount
Insertion Thermal Mass Flow Meter
Inline Thermal Mass Flow Meter
Inline Thermal Mass Flow Meter
Insertion Thermal Mass Flow Meter
Insertion Thermal Mass Flow Meter
Coriolis Mass Flow Meter
Coriolis Mass Flow Meter CNG
Cone flow meter with Differential pressure transmitter
Cone flow meter with Multi Variable transmitter
Slurry Electromagnetic Flow Meter with intergral display
Slurry Electromagnetic Flow Meter with Remote display
RPD Gas Meter
RPD Gas Meter with EVC
Turbine Gas Meter
Turbine Gas Meter with EVC
Ultrasonic Level Transmitter with 4-20mA, 2-wire HART Protocol
Capacitance Level Transmitter with 4-20mA, 3-wire & RS 485 Modbus
Capacitance Level Transmitter with 4-20mA, 2-wire HART Protocol
Hydrostatic Level Transmitter with Inbuilt Display
Hydrostatic Level Transmitter with Remote Display
Ultrasonic Level Transmitter with 4-20mA, 3-wire & RS 485 Modbus
Ultrasonic Level Transmitter with remote display
Turbine Gas Meter with EVC
