Environments and standards : the ATEX standard
There is a risk of explosion when several elements are present:
- an oxidant: the oxygen in air, for example
- a fuel:
- gas or vapors: hydrocarbons, solvents, varnishes, dilutants, gas, alcohol, dyes, perfumes, chemical products, agents for manufacture of plastics, etc.
- powders and dust: magnesium, aluminum, sulfur, cellulose, cereals, carbon, wood, milk, resins, sugars, starch, polystyrenes, fertilizer, etc.
- a hot spot or a source of combustion
For example, when filling a grain silo, the concentration of dust is very high. The environment then is dangerous: a rise in temperature, or even a spark, can trigger an explosion.
If a risk of explosion is identified in an environment (gas or dust), a safety requirement is imposed for the use of equipment that is specifically designed to function without becoming a potential source of combustion. This equipment offers different types of protection designed to diminish the risk of explosion.
What is the ATEX?
The ATEX regulation is a European directive which requires all heads of organizations to fully understand the risks related to certain explosive environments. To do this, an evaluation of the risk of explosion in a company is required in order to identify any locations where explosive environments could form, and then to put in place the means to avoid explosion.
How do you choose equipment that is adapted for an environment at risk of explosion?
ATEX environments are subdivided into three zones:
- zones 0, 1 or 2 for gases
- zones 20, 21 or 22 for dust
There are two groups of materials:
- Group I: concerns mines (more restrictive)
- Group II: concerns all above-ground industries
For Group II (above-ground industries), a specifically adapted category of equipment is associated with each ATEX zone classification:
|Zone classification||ATEX classification required for equipment
(for Group II, above-ground industry)
Zone 0 (gas)
VERY HIGH LEVEL OF PROTECTION
|The explosive mix is present constantly or for a long period of time|
Zone 1 (gas)
HIGH LEVEL OF PROTECTION
|An explosive mix may form under normal working conditions|
Zone 2 (gas)
NORMAL LEVEL OF PROTECTION
|An explosive mix has a small chance of forming and would exist only for a short period|
What are the specific features of certified headlamps?
Products classified into different groups may have different modes of protection against explosion. These modes are designed for the zone in which the equipment is to be used. For example: zones 1/21, zones 2/22.
The more restrictive the mode of protection (zone 1/21, zone 0/20) is for a headlamp, the less powerful the lighting will be. The intensity and voltage that is permitted may be low in order to ensure that the device does not produce an arc, spark or dangerous temperature.
How are the gases classified?
The ATEX standard also has a classification for explosive gases against which the user can protect himself by using a product that has adapted protection.
For Group II materials, the danger of gases covered by a product grows from subdivision IIA, the least dangerous, to subdivision IIC, the most dangerous.
Some reference gases:
- group I: methane
- group IIA: propane
- group IIB: ethylene
- group IIC: hydrogen/acetylene
To determine the gases that may be present and their subdivisions, per type of site, refer to the ranking in subdivision of gases and vapors for group II (surface installation).
Temperature classes for gases and dust
The exterior of a headlamp for use in hazardous locations must not present an external surface temperature that could provoke combustion. Different substances may combust at different temperatures. The lower the combustion temperature is, the more dangerous the substance is. Therefore, each piece of equipment used in an explosive environment is classified according to the maximal surface temperature it generates.
There are six classes of temperatures, from T1 to T6.
Auto-ignition classes and temperatures for gas
Classes and temperatures for suspended dust particle combustion
Refer to the classification of gazes according to their self-ignition temperatures.
To determine the gases that may be present and and their self-ignition temperatures, per type of site, refer to the classification of flammable dust according to the self-ignition temperature.
What does the marking mean?
ll products designed for use in explosive zones have a specific marking on them. This marking contains all the information necessary to determine the zones in which the product may be used.
Example of marking:
CE 0081 II 2 GD Ex nAnL IIB T4
- CE: The equipment meets European standards for this product
- 0081: Identification number of the notified body, when it intervenes in the inspection phase of production Here the number corresponds to the LCIE – Bureau Véritas. This number may also be 0080, for example for INERIS.
- : Use authorized for explosive environments
- II: Equipment group (I = mines, II = surface industries)
- 2: Category of equipment (1 = permanent risk (Zones 0 and 20), 2 = frequent risk (Zones 1 and 21), 3 = occasional risk (Zones 2 and 22))
- GD: Type of fuel source: D = dust, G = gases and vapors
- Ex: The product meets the Cenelec protection standards
- nAnL: type of protection
- IIB: Indicates the class of gases covered by the product
- T4: Temperature class corresponding to a surface temperature