This post discusses calibration in hazardous area in the process industry.
There are many things you need to be aware before you can go to a hazardous (Ex) area to perform calibrations. There are different levels of hazardous areas and also different levels of calibration equipment.
First we look at some fundamental considerations, theory and history. Then we look at different techniques to make calibration equipment suitable for an Ex area.
The downloadable white paper discusses this topics in more details:
What is a hazardous area?
A hazardous area is an area (indoors or outdoors) that contains, or may contain, flammable substances. The flammable substance may be a liquid, gas, vapor or dust. Depending on the hazardous area classification, the area may contain a flammable substance all the time, or it is likely to be a certain ratio of the time, or only in specific situations, such as during shutdowns or accidents.
Explosion Triangle
In such a hazardous area, an explosion or fire is possible if all three conditions of the “Explosion Triangle” (see picture below) are met. These three conditions are fuel (a flammable substance), source of ignition (or heat) and oxygen (air).
The situation is often presented as a triangle; hence the name Explosion Triangle.
Eliminating one element from the explosion triangle
Keeping in mind the Explosion Triangle, we can conclude that one or more of the three elements must be eliminated, to make it safe. Many times, in an industrial application eliminating the flammable substance is not possible (you can’t eliminate fuel in a refinery), and therefore the oxygen (air) or source of ignition has to be eliminated.
However, it is also often very impractical or impossible to eliminate air. Therefore, the most practical solution is to eliminate the source of ignition, being spark or heat.
In the case of electrical calibration equipment, the device can be specially designed, so that it can be used safely in hazardous areas. There are many ways to design electrical equipment suitable for hazardous areas and this topic will be discussed later.
Calibration equipment is often designed in such a way that it cannot provide enough energy to cause the source of ignition, spark or heat.
Brief history of hazardous areas
Some of the first hazardous areas were discovered in early coal mines. Being flammable substances, both the coal dust and the methane absorbed created a hazardous area. The lighting in early mines was produced by candles and torches, generating a source of ignition.
This led to many accidents. Later, when miners began to use electrical equipment (lighting, tools), many accidents occurred due to sparking or heating. Eventually, design standards were developed to guide the design process to prevent the sparking and heating of electrical equipment.
This was the first “intrinsically safe” electrical equipment and it led the way to the standards compiled for equipment used in hazardous areas today.
Typical industries with hazardous areas
There are many industries that have hazardous areas. Some plants have large hazardous areas, while others have only small sections classified as hazardous areas. Typical industries with hazardous areas include chemical and petrochemical industries, offshore and on-shore oil and gas, oil refining, the pharmaceutical industry, food and beverage, energy production, paint shops and mining.
Since a flammable substance may be a liquid, gas, vapor or dust, there are surprisingly many different industries that may have some areas in the plant where these substances may be present during the normal operation or during shut-down. Even some seemingly safe industries may have hazardous areas.
In plants, all areas classified as hazardous should be clearly marked with the Ex logo:
Flammable and combustible liquids
What are flammable and combustible liquids? Generally speaking, they are liquids that can burn. They may be gasoline, diesel fuel, solvents, cleaners, paints, chemicals, etc. Some of these liquids are present in many workplaces.
Flashpoint and autoignition temperatures are also often discussed.
Flashpoint is the lowest temperature of a liquid at which it produces sufficient vapor to form an ignitable mixture with air. With a spark or enough heat, it will ignite.
Autoignition temperature is the lowest temperature at which a liquid will ignite even without an external source of ignition. Most commonly, flammable and combustible liquids have autoignition temperatures in the range of 572 °F to 1022 °F (300 °C to 550 °C). However, there are liquids that have an auto-ignition temperature as low as 392 °F (200 °C) or less.
Based on their flashpoint, liquids are classified as flammable or combustible. Flammable liquids may ignite at normal working temperatures, while combustible liquids burn at higher temperatures. Often 100 °F (37.8 °C) is considered as the temperature limit. Flammable liquids have a flashpoint below 100 °F and combustible liquids above. To be more precise, flammable and combustible liquids themselves do not burn, it is the vapors that burn. More precisely, it is the mixture of the vapors and air that burns.
There are also limits of the concentration within which the mixture can burn. If the concentration of the mixture is too low (too thin) it will not burn; the same is true if the concentration is too high (too rich). The limits are known as lower and upper explosive limits (LEL and UEL).
It is good to remember that some liquids may have a rather low flashpoint. For example, gasoline has a flashpoint as low as c. -40 °F (-40 °C). It produces enough vapors in normal environmental conditions to make a burnable mixture with air. Combustible liquids have a flashpoint way above normal environmental conditions, and therefore they have to be heated before they will ignite.
Some examples of flashpoints and autoignition temperatures:
Various protection techniques
As mentioned earlier, to prevent an explosion, one of the three elements of the Explosion Triangle should be eliminated. In practice, eliminating the source of ignition would be the most sensible. There are various techniques in electrical equipment that make them safer for use in hazardous areas.
These different techniques fall into two main categories: eliminate the source of ignition (Exe, Exi) or isolate the source of ignition (Exd, Exp, Exq, Exo, Exm).
Intrinsically safe technique
The Exi “Intrinsically Safe” technique is the most commonly used and most suitable protective technique for electrical calibration equipment. Intrinsically safe equipment is designed so that it will not provide enough energy to generate sparks and excessively high surface temperatures, even in the case of a fault in the device. The equipment is designed to be intrinsically safe.
Inside an Exi device, the Exm (“Encapsulated”) technique may also be used for certain parts of the equipment (as in a battery pack).
“Hot work permit”
Using non-Ex calibration equipment in a hazardous area may be possible, but it requires special approval from the safety personnel in the factory. Oftentimes, this also involves the use of safety devices, such as personal portable gas detectors, to be carried in the field while working.
Using equipment rated for use in Ex area is easier, as it does not require any special approvals. Naturally, the rating of the Ex-rated calibration equipment must be suitable for the rating of the hazardous area to which it is taken to.
Read more in the downloadable white paper
Additional topics discussed in the white paper are:
- International / North American legislation and differences
- International IEC standards, IECEx scheme and ATEX Directive
- Hazardous zones classification
- Product category and Equipment Protection Levels (EPL)
- Equipment grouping
- Temperature Class
- North American legislation differences: Divisions
- Explosion group
- Environmental conditions
- Example of equipment marking
Click the image below to download the free white paper:
New Beamex MC6-Ex calibrator for hazardous areas
Last, but not least: We have recently introduced the MC6-Ex, a new calibrator & communicator that can be used in any hazardous zone/division. Although it is an Ex calibrator, it does not have compromises typically found in Ex products.
Check out the MC6-Ex product page on Beamex web site:
This is what the beauty looks like:
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