# Mass Flow Rate vs Volumetric Flow Rate

Mass flow rate and Volumetric flow rate is what we must use in flow measurement and control. So what is mass flow and what is volumetric flow? How to switch between them? In this post, we compare the concept of volume flow and mass flow and the conversion between the two.

Commonly used flow meters, such as orifice plates. Turbine flowmeter. Vortex flowmeter. Electromagnetic Flowmeter. Rotameter. The flow measurement value of ultrasonic flowmeter and oval gear flowmeter is the volume flow of fluid. Coriolis mass flow meters and thermal gas mass flow meters measure mass flow.

Sino-Inst offers a variety of volume flow and mass flow meters for flow measurement. If you have any questions, please contact our sales engineers.

## What is Flow Rate?

Flow rate refers to the ratio of the amount of fluid flowing through the cross-section of the pipe to the time it takes for that amount to pass through the cross-section. Flow is divided into volume flow and mass flow.

## What is volume flow Rate?

The volume flow rate is the flow rate expressed by the volume of the fluid quantity.
The volume flow is expressed by the formula: qv=V/t=u×A.

In the formula:

• qv is the volume flow, m3/s.
• V is the unit flow volume, m3.
• t is the unit time, s.
• u is the average flow velocity in the pipe, m/s.
• A is the cross-sectional area of ​​the pipeline, m2.

Among the commonly used flow meters, such as orifice plates, turbine flow meters, vortex flow meters, electromagnetic flowmeters, rotameters, ultrasonic flow meters, and oval gear flow meters, the flow measurement value is the volume flow of the fluid.

## What is mass flow Rate?

Mass flow rate refers to the flow rate of fluid quantity expressed by mass.
The mass flow rate can be expressed by the formula: qm=m/t=ρ×u×A.

In the formula,:

• qm is the mass flow rate, kg/s.
• m is the unit fluid mass, kg.
• ρ is the fluid density, kg/m3.
• t is the unit time, s.
• u is the average flow velocity in the pipe, m/s.
• A is the cross-sectional area of ​​the pipeline, m2.

Extended reading: Gas mass flow controller working principle

## mass flow rate units converter

1 kilogram per second (kg/s)

=3600.0000 kilograms per hour (kg/h)

=3.6000 tons per hour (t/h)

=86.4000 tons per day (t/d)

=2.8800×104 tons per year (t/a)

= 2.2046 pounds per second (lb/s)

= 7936.6414 pounds per hour (lb/h)

= 1.9048 x 105 pounds per day (lb/d)

## Volumetric flow rate to Mass flow rate

The mass flow rate and volume flow rate relationship can be briefly summarized as follows:

1. If the mass flow of the flow is known and needs to be converted into volume flow, the following formula can be used: qv=qm/ρ. In the formula, qv is volume flow, m3/s. qm is mass flow, kg/s. ρ is fluid Density, kg/m3.
2. If the volume flow rate of the fluid is known, it needs to be converted into a mass flow rate, which can be done with the formula: qm=qv×ρ.

### How to convert air volume flow to air mass flow?

The conversion factor between air volume flow rate and air volume flow rate is 1.29. That is, to convert the volume flow of air into the mass flow, multiply the coefficient by 1.29.

Solution: Let the mass of air passing in t hours be m kg, the volume be V cubic meters, and the known air density ρ = 1.29 kg/m3.

Then the volume flow rate of the air qv=V/t (cubic meters/hour), and the mass flow rate qm=m/t (kg/hour).

And because air quality = air density x air volume, m = ρV = 1.29V.

Then qm=m/t=ρV/t=ρqv=1.29qv.

That is, to convert the volume flow of air into a mass flow, multiply the coefficient by 1.29.

## Density, Mass Flow, and Volumetric Flow Relationship

A description of the relationship between density, mass flow rate, and volumetric flow rate. The following video provides a good explanation.

If the volume flow rate of the fluid is known, it needs to be converted into mass flow rate, which can be carried out by the formula: qm=qv×ρ

Volume flowrate (Volume Flowrate) is the volume of fluid passing through the flow section per unit time, referred to as flow rate, expressed by Q.
Flow rate expressed in volume/time or volume/time. Such as: m³/h ,l/h.
Volume flow rate (Q) = average velocity (v) * pipe cross-sectional area (A)

The fluid pressure and flow rate in the pipeline are completely two concepts. For fluids with high pressure, the flow rate can be high or low.
Engineering pressure is the amount of force per unit area. The flow rate is the amount (weight or volume) of the fluid flowing through the pipe per unit time.
Here, there is another important parameter: flow rate. It is the average velocity of fluid flowing in the pipe. The unit is: the flow rate per unit area (internal section of the pipeline). That is: the flow rate multiplied by the pipe cross-sectional area equals the flow rate.
If the fluid is a gas (compressibility), the flow rate is constant, and the flow rate of a gas with high pressure is of course also large. If the size of the pipe is constant, the flow rate of the fluid with a large flow rate is of course also large; the pressure loss (i.e. pipeline resistance) is proportional to the square of the flow rate, that is, proportional to the square of the flow rate.

Read more : How to Calculate Pressure Drop in a Pipe?

If the fluid under a certain pressure is directly discharged to the atmosphere under certain conditions (the diameter of the pipe is the same), the fluid pressure can be converted into velocity energy, and the flow rate of the fluid with high pressure is correspondingly high, and of course, the flow rate is also large.

## More mass or volume flow measurement solutions

### Bidirectional Flow Measurement

What is bidirectional flow? Bidirectional flow refers to forward and directional flow. Bi-directional flow lines are not common…

### What is Modbus Protocol?

What is meant by Modbus protocol? Modbus Protocol is a serial communication protocol, which was published by Modicon…

### Guide: Magnetic Flowmeter Installation

Magnetic flowmeters are mainly used to measure the flow of conductive media with good fluidity. Magnetic flowmeters are…

### Solvent flow meters

The solvent flow meter is a flow meter that can measure solvent volume or mass flow. In the…

### Grease Flow Meters

What is a Grease Flow Meter? Grease Flow meters are meters dedicated to measuring the volume or mass…

### What is Flow Meter K-factor? And how to calculate?

What is the K-factor in a flow meter? K-factor is a coefficient calculated by calibrating and comparing with…

### How to Select Ultrasonic flow detectors?

What is an ultrasonic flow detector? An ultrasonic flow detector is often understood as an ultrasonic flow meter…

### Irrigation Flow Meters for Agriculture Water System

What is an irrigation flow meter? The irrigation flow meter is a flow meter designed for agricultural irrigation…

### The influence of Reynolds number on the accuracy of the flow meter

What is Reynolds number? Reynolds number is a dimensionless number that can be used to characterize the flow…

### Technical Guide – Thermal mass flow meter

What is a Thermal Mass Flow Meter ? The thermal mass flow meter is also called Thermal mass…

Sino-Inst is Manufacturer of Mass Flow Meters and Volumetric Flow Meters. We supply more than 50 kinds of Flow Meters. 40% mass flowmeters, and other types of Volumetric flowmeters.

Since the mass flowmeter has the ability to directly measure the mass flow of fluid beads, the measurement accuracy is high. It has a wide range of applications, low installation requirements, reliable operation of the instrument, and low maintenance rate. Mass flow meters have been widely used in flow measurement in petroleum, chemical, metallurgy, thermal, electric power, food and other fields.

Volumetric flowmeters are low cost and cover more measurement applications. It is also widely used in various industrial production control processes.

Sino-Inst’s Mass Flow Meters and Volumetric Flow Meters, made in China, Having good Quality, With better price. Our flow measurement instruments are widely used in China, India, Pakistan, the US, and other countries.

The entire team at Sino-Inst’s has received excellent training, so we can ensure that every client’s needs are met. For assistance with your product requirements, whether it’s a flow sensor, level sensor, or other device, give us a call.

This entry was posted in Technologies, Blog, Flow Measurement Solutions by KimGuo11. Bookmark the permalink.