DP Closed Vessel Level Measurement Explained

Learn about Open and Closed Vessel Level Measurement using a Differential Pressure Transmitter

In the first article of this 2-part series, we introduced you to Open Vessel level measurement using a Differential Pressure Transmitter (or DP Transmitter). The second part of our series will take you through the process of predicting differential pressure level transmitter outputs of open vessel control loops and introduce you to DP closed vessel level measurement.

DP level measurement control loop

As a refresher, let’s look at how we ended the first part of this article series.

We looked at a control loop where a Differential Pressure Transmitter is connected to measure an open vessel level.

The High-Pressure Port is connected at the 0 inches point and the Low-Pressure Port is vented to atmosphere.

We said that: Pressure in inches of water is equal to the relative density of the liquid multiplied by the height of the surface of the liquid in inches.

We talked about converting the resulting inches of water pressure value into any pressure scale you need such as psi, kPa, or bar.

DP Transmitter Control Loop

DP level measurement considerations

Relative density

Ok, …that works just fine if the liquid in the vessel is water. What if the liquid stored in the vessel is not water and doesn’t have a relative density of 1?

The relative density of most liquids will change with temperature. For the sake of simplicity, we will ignore the effect of temperature for now.

Interestingly, when the vessel is at full at 200 inches, the pressure developed is much lower because the liquid has a low relative density. That is a critical consideration when calibrating the differential pressure transmitter.

Relative Density

Let’s assume the differential pressure transmitter is calibrated to produce 4 – 20 mA for a liquid level range of 0 inches to 200 inches.

DP Transmitter Calibration

DP closed vessel level measurement

So far we’ve only considered open vessels. Let’s move on to the level measurement of closed vessels. 

The major difference between open and closed vessel level measurement is the fact that we need to consider the pressure in the vapor above the liquid in the closed vessel. This vapor pressure exerts a force on the surface of the liquid.

We can compensate for the vapor pressure by connecting the low-pressure side of the differential pressure transmitter to the top of the vessel through a pipe referred to as a Reference Leg.

Closed Vessel Level Measurement

DP closed vessel level measurement – Reference leg

The reference leg may be dry or filled with liquid. If the reference leg is dry, it is commonly referred to as a Dry Leg. And, if the leg is filled, it is commonly referred to as a Wet Leg.

Dry Leg - Wet Leg
DP closed vessels level measurement – Dry leg

In a Dry Leg system, the vapor pressure is applied to the High-Pressure and the Low-Pressure sides of the differential pressure transmitter. The same pressure applied on each side basically cancels each other out.

Dry Leg System
DP closed vessels level measurement – Wet leg

Sometimes the reference leg needs to be filled with fluid. This leg is now referred to as a Wet Leg.

There are many reasons for a Wet Leg such as avoiding the error in measurement caused by vapor condensate in the reference leg.

Let’s look at an example of a wet leg system. The differential pressure, as always, will be High Pressure minus Low Pressure. But, the resulting differential pressure is not easy to predict because the liquid in the vessel is usually not the same as the liquid in the wet leg!

Wet Leg


Let’s review what we’ve discussed about DP closed vessel level measurement.

– Liquid Relative Density and temperature have a significant effect on Differential Pressure Transmitter level measurements.

– A reference leg is used to compensate for vapor pressure in closed vessels.

– A dry reference leg is called a Dry leg.

– A Wet Leg is a reference leg filled with a liquid different from that in the vessel.

Want to Learn More?

Newcomers to RealPars have free access to one of our online courses.

You can take advantage of this offer by downloading the RealPars app (iOS, Apple TV, Android, Android TV, FireTV, Rokuand selecting the first lesson of the PLC Hardware course. Just like the video, the lessons are all high-quality and also very easy-to-follow.

RealPars App

Also, for a low monthly fee, you’ll get full access to an exclusive library of courses on PLC programming and industrial automation topics as well as new fresh out of the oven videos each and every week. These courses are all member-exclusive and are not shared anywhere else on the internet.

If you would like to get additional training on a similar subject please let us know in the comment section.

Check back with us soon for more automation control topics.

Got a friend, client, or colleague who could use some of this information? Please share this article.

The RealPars Team
By Ted Mortenson

By Ted Mortenson

Automation Engineer

Posted on Jun 15, 2020

Ted Mortenson

By Ted Mortenson

Automation Engineer

Posted on Jun 15, 2020

5 Actionable Tips for Getting a PLC Programming Job with NO Experience

5 Actionable Tips for Getting a PLC Programming Job with NO Experience

In this blog post, you’ll learn about the mindset that helped me getting a PLC programming job with NO experience. This is my personal experience as someone who searched for a job in this field and as an employer who reviews resumes and interviews candidates for a variety of projects. So let’s get started!

PLC vs PC: Which is Better for Industrial Automation?

PLC vs PC: Which is Better for Industrial Automation?

In this article, we're going to talk about why a Programmable Logic Controller (PLC) is preferable to a Personal Computer (PC) in automation and industrial control systems. Up until the last few years, the PLC was the hands-down favorite, but the PC is beginning to...

What is an RTD? | Working Principles

What is an RTD? | Working Principles

Temperature measurement in machines and other industrial processes is one of the key control variables used to guarantee the quality of products manufactured in different segments of the industry. Currently, the two most used methods for electronic temperature...

RealPars is the world's largest online learning platform for cutting-edge industrial technologies. 

[email protected]
+31 10 316 6400
Mon - Fri  8:30 am to 5:30 pm (CET)

Rotterdam Science Tower,
Marconistraat 16,
3029AK Rotterdam, The Netherlands



Terms of Service






Sign in


Contact Us

Help & Support

Refund & Cancellation Policy

© 2023 RealPars B.V. All rights reserved.

Created with coffee and tea in Rotterdam.