{"id":12933,"date":"2020-03-12T11:02:04","date_gmt":"2020-03-12T16:02:04","guid":{"rendered":"https:\/\/blog.wika.com\/us\/\/?p=12933&post_date=20200311091702"},"modified":"2026-02-02T10:55:22","modified_gmt":"2026-02-02T15:55:22","slug":"how-differential-pressure-transmitters-measure-level","status":"publish","type":"post","link":"https:\/\/blog.wika.com\/us\/products\/level-products\/how-differential-pressure-transmitters-measure-level\/","title":{"rendered":"Using a Differential Pressure Transmitter for Liquid Measurement"},"content":{"rendered":"

Differential pressure transmitters are designed to measure <\/strong>pressure before and after the fluid encounters an interruption, such as a filter or pump. However, this pressure instrument can also be used to measure liquid levels.<\/strong><\/span><\/span>\u00a0<\/em><\/p>\n

The market offers several methods for measuring and monitoring liquid levels. For closed vessels, operators commonly choose a differential pressure transmitter. This is a proven technique, especially when the measuring instrument should not be immersed in the media, such as for tanks that have a grinder or hold aggressive substances. However, if the application requires high accuracy, this method of level measurement soon comes up against its limits.<\/p>\n

Before making the case for using two interconnected <\/span>process transmitters<\/span><\/a> rather than other configurations or instruments, let\u2019s take a look at what <\/span>a <\/span>differential pressure transmitter<\/span><\/a> is<\/span> and how this pressure instrument measures liquid levels.<\/span><\/p>\n\n

\"How

Figure 1: In a pipe, a differential pressure transmitter measures pressure drop (d) from the higher point (H) to the lower point (L).<\/p><\/div>\n \n

What Differential Pressure Transmitters Do<\/h2>\n

A differential pressure transmitter measures and calculates the difference between two points of pressures, and sends that information via a signal to a programmable logic computer (PLC). <\/span><\/p>\n

These sensors were originally designed for use in pipes to measure pressure before and after the fluid encounters a filter, pump, or another interruption in flow. Standard differential pressure transmitters come with two process connections arranged side by side to measure the drop in pressure (d) between the higher and lower points (H and L, respectively, in Figure 1). Classic differential pressure transmitters can also measure flow rates.<\/p>\n

It wasn\u2019t long before people realized that differential pressure measurements could be used to determine liquid level<\/em> as well.<\/p>\n

Measuring Level with a Differential Pressure Transmitter: Advantages and Challenges<\/h2>\n\n
\"Level

Figure 2: Differential pressure transmitter configured to measure level inside a tank.<\/p><\/div>\n \n

A differential pressure transmitter calculates level by measuring the differential pressure between the liquid and the gaseous phases of the fluid inside a closed tank. For precise calculations, important factors include:<\/p>\n