Pressure is an essential parameter in industrial processes. It determines the amount of energy needed to run equipment, whether the entire process produces a machine or a process reaction, and how much heat. Because pressure is so important, every industrial company must have an ultra high purity pressure gauge to measure and record high-pressure points accurately. There are several different kinds of high-pressure gauges available. 

Choose from these options depending on your company’s specific requirements and equipment specifications. Keep reading to discover how you can use a pressure gauge with an ultrahigh purity range of readings to get the best possible answer when measuring volume, rate of flow, temperature, and more.

What is an Ultra High Purity Pressure Gauge?

A high-pressure gauge is a thermo-mechanical device that monitors and records a change in the pressure inside the equipment. Unlike a traditional, hand-held high-pressure gauge, a high-pressure gauge uses electronic devices to measure changes in pressure and provide accurate, real-time data. Depending on the gauge’s function and use, you can choose between a pressure reading, which is recorded on paper, or a pressure rate, which is calculated by the company and recorded each time the machine is operated.

What’s the difference between an Ultra High Purity Pressure Gauge and a Dry Radiometer?

While both the high-pressure and low-pressure versions of the same gauge can be used to measure the same thing, the dry rate and high-pressure versions can be quite different. The low-pressure gauge uses a dial to record new, but the high-pressure gauge doesn’t. The dial is what the high-pressure gauge uses to record pressure changes. The low-pressure gauge records changes in degrees F, while the ultra high purity pressure gauge records in degrees Centigrade.

How to Use an Ultra High Purity Pressure Gauge?

The first thing you need to know about using an ultra high purity pressure gauge is that you’ll need to read and record the gauge data in your head instead of having it sit in a logan and blanch at a glance. You’ll also need to keep in mind that the higher the pressure you’re at, the higher the danger that something will go wrong. If you aren’t careful, you could breach the line between high and low pressure and find yourself in very high or low individual pressures. 

Typically, you’ll set the ultra high purity pressure gauge at a high pressure to record the change in pressure. You’ll then decrease the pressure to record the amount of the change. As you increase the pressure, you’ll record the temperature rise and the amount of the rise. By keeping this in mind, you’ll be able to identify low-pressure points and accurately determine if hot gas is being produced inside the equipment.

Conclusion

Pressure is an essential parameter in industry and science, but knowing how and when to use it can be even more crucial. With so many variables affecting the result, it’s important to know the difference between a high-pressure and low-pressure gauge. So choose from these options and know you can rely on the information being recorded to make an accurate assessment.