Why Did My Pressure Equipment Fail? 6 Instrument Killers
Your process pressure instruments play a critical role in your applications. They accurately and reliably measure and monitor pressure to determine if process systems are working effectively and efficiently, or if you need to make system alterations or adjustments. This helps ensure the safety of your personnel, the efficiency of your processes and the quality of your products.
But what happens when your pressure instruments break down?
In my 41 years of working in the process industry, I’ve seen many causes of instrument failure. These “instrument killers” can throw a wrench in your project and cause all types of problems. Luckily, most of them can be prevented if you know the warning signs.
In this article, I will outline the most common instrument killers that endanger your pressure equipment. Although the focus of this blog is on pressure gauges, when the word instrument is used, the reference is to a gauge, a pressure switch, or a transducer.
For more information on pressure gauge standards, refer to ASME B40.100-2013 and EN837-1.
I’ll also teach you how to see these instrument killers coming ahead of time and how to solve them so you can keep your processes running smoothly, safely and accurately.
Pressure Instrument Problem Warning Signs
Instrument maintenance is one of the keys to achieving and maintaining personnel safety, process efficiency and product quality. A comprehensive maintenance plan makes it easier for you to identify instrument issues and execute appropriate solutions before they become more significant or widespread problems. This helps save you time and money by preventing costly service work, unplanned downtime and equipment or process-based employee injuries.
Early Warning Signs of Gauge Issues
Common Pressure Instrument Problems and Solutions
Like many of my colleagues in the industry, you may also encounter problems when using instruments in your critical applications. The key to overcoming them is recognizing their signs and understanding their causes. This information makes it much easier to determine and execute the right solution.
Below are some of the most common pressure instrument problems, including why they occur, what effects they have on the instrument and the overall operation or process, and how to resolve them.
In processing equipment, surges in process pressure can lead to pulsation in gauges. These pulsations can cause poor gauge readability due to pointer flutter and decreased gauge integrity due to component damage.
Similar to pulsation, vibration can lead to pointer flutter and component damage in gauges. They can be classified into two categories: high-frequency/low-amplitude and low-frequency/high-amplitude. The former causes pointer flutter and centralized gauge movement gear teeth damage on the segment, while the latter causes widespread gear teeth damage across the segment and increased stress on the bourdon tube.
As a rule of thumb, if pulsations or vibrations trigger pointer movement of 5% or more of the full-scale range, you should take steps to reduce their generation or their effect on the instrument.
There are three common solutions for instrument problems stemming from excessive pulsations or vibrations:
Instruments are rated for use in a specific temperature range. Using them in temperatures outside of this range can lead to significant damage, depending on their design and construction. For example:
- Mounting the instrument remotely
You can install the instrument away from the process with capillary to protect it from high or low temperatures. A gauge pipe mounting bracket is a convenient available option when remotely mounting the gauge. Ashcroft capillary is rated for temperatures of -300° to 750°F (-184°C to 399°C). A simple 5-foot length of capillary between the instrument and the process is very effective at increasing low temperature and decreasing high temperatures.
- Mounting the instrument directly
The Ashcroft MicroTube™ or finned siphon are rigid devices mounted directly to the instrument and then to the process so there is no need to consider how to mount the instrument if it were remotely mounted. The MicroTube™ siphon has been engineered for process pressures to 5000 psi and process temperatures to 800°F (427°C). The finned siphon is rated for pressures to 3000 psi and process temperatures to 700°F (371°C). Both devices are good temperature dissipaters.
Pressure spikes have many causes, including water hammer, overly rapid valve actuation, equipment malfunction or process fluid freezing. Gauges subjected to these conditions often show signs of damage like a dented pointer, a ruptured or deformed tube, or a broken segment gear. This damage can lead to unresponsiveness to changes in process conditions or complete instrument failure, both of which can result in poor operation or performance in your process.
Pressure spikes or surges beyond the full-scale range of a gauge or overpressure can result in accuracy degradation, gauge failure or rupture of the bourdon tube.
There are many solutions if you experience instrument problems stemming from pressure spikes, including:
Instruments installed in equipment for “dirty” processes—i.e., processes involving particulates, slurries and sludge—are highly susceptible to clogging. Process material can become stuck on the instrument’s inner surfaces as it flows through the system, which can hinder the operation of the instrument and the efficiency of the process.
If the instrument’s process connection is susceptible to process media buildup or blockage, you can prevent clogging by isolating the instrument from the process media. A diaphragm seal or isolation ring are good choices. When clogging of the diaphragm seal is a concern, consider an available flushing connection. It is designed to flush process media buildup in the seal. Attaching a valve to the flushing port is ideal to control process flow. For heavy slurries or sludge, consider an isolation ring. This 360-degree design for process flow makes clogging virtually impossible.
The wetted parts of an instrument must be compatible with the process material. Otherwise, the instrument may corrode during use, which can affect product and process quality. Under severe process conditions, process media that is not compatible with the wetted parts of the instrument will result in eventual failure of the instrument causing the media to escape into the environment. This becomes a safety issue where operators can be injured or, in extremes, lose their lives.
If you want to avoid instrument problems stemming from corrosion, you should ensure the material for the instrument’s wetted parts is suitable for the process material’s composition, concentration and temperature. If it is not possible to choose a compatible instrument wetted parts material, you can integrate a diaphragm seal/instrument isolator or isolation ring constructed from an appropriate material for the process. Refer to the Ashcroft corrosion guide for process compatibility guidance.
Instruments are delicate pieces of equipment. While integrating the right design elements and accessories can help protect them from damage during severe service applications, it cannot protect them against abuse, i.e., incorrect installation or usage. Installing or using instruments incorrectly can cause significant damage, which can lead to measurement error or component failure.
Always install, use and maintain your instruments properly. Installing NPT instruments requires the use of an open-ended wrench. Do not attempt to install and tighten the instrument using the instrument case! This often causes irreparable damage to the instrument.
Do not use the instrument as a step ladder after it is installed as this presents safety issues. Not only can the instrument be damaged, but someone can get hurt. Also, inspect the instruments routinely for damage and performance.
We don’t like to pressure you, but we have more information.
I hope you are now equipped with the knowledge you need to keep your people and processes safe and secure. If you know what problems to look out for and how to solve them, you won’t have to fear “instrument killers.”
At Ashcroft, we are committed to helping customers select and source the right instruments for their needs. Whether you need assistance choosing instruments for a new process or operation, or resolving instrument issues with an existing equipment setup, we’ve got you covered. Contact us today to talk to one of our industry experts and get all your questions answered.
If you want to learn more about pressure gauges, feel free to read our related articles:
- How To Identify Your Pressure Gauge and Get the Proper Replacement
- How Does Temperature Affect Pressure Gauge Performance?
- How Do I Select the Right Pressure Gauge Range?
- How Often Should I Check the Calibration of My Pressure Gauge?
About Lou Altieri, Product Marketing Leader
Lou Altieri is a Product Marketing Leader with Ashcroft Inc. with more than 41 years of experience. He is responsible for pressure gauges, diaphragm seals, isolation rings and accessories that serve for the oil and gas, chemical/petrochemical, and water/wastewater markets. Lou has a passion for understanding customer needs and providing solutions to their problems. Most recently, to safely protect the gauge from elevated pressure beyond its full-scale range, he released a gauge that can withstand pressure up to 4X the range of the gauge without damaging the instrument. He has authored numerous articles. In his spare time, Lou enjoys power walking, hiking and winemaking.