ATEX og andre dokumenter

Her finner du  nedlastbart ATEX sertifikat for Auteldac 4 

GAI-Tronics kvalitetsmanual – Returskjema for NOREX serviceavdeling – Koder for klassifisering av Ex utstyr – Koder for kapslingstetthet (IP-klassifisering) – Oversiktsskjema over EX gradering og IP gradering fra BASEEFA.

 
Klikk på bildet til venstre for å laste ned ATEX sertifikat for Auteldac 4.

Last ned GAI-Tronics kvalitetsmanual her

Last ned skjema for varer til vår service-avdeling her

IP-gradering Last ned forklaring til kodene for kapslingstetthet her Eksempler: IP 67 = Ingress Protection - Støvtett og vanntett IP 56 = Ingress Protection - Støvtett og beskyttet mot tung sjøsprøyt

FULL OVERSIKT Last ned informasjon fra BASEEFA om ex og IP koder med sammenligning mellom IECEx og ATEX

The ATEX Directives regulates:

Hazardous areas are defined by three main criteria:

• The type of hazard
• The likelihood of the hazard being present in flammable concentrations
• The (auto) ignition temperature of the hazardous material

The type of hazard (Gas Groups)

The hazard will be in the form of a gas, vapour, dust or fibre.

Gases and Vapours

Gases and vapours are categorized in terms of their ignition energy or
the maximum experimental safe gap (in respect of flameproof protection). 
This categorization leads to the Gas Groups:

(The gases noted in the table are typical gases for each group.)

Group IIC is the most severe group.  Hazards in this group can be ignited very easily indeed.

Dusts and Fibres

Dusts and fibres are also defined in terms of their ignition properties including dust cloud ignition properties.

The likelihood of the hazard being present in flammable concentrations (Zones)

The likelihood of the hazard being present in flammable concentrations will vary from place to place.  A location very close to an open source of hazard will have a high likelihood of a flammable atmosphere.  On the other hand, outside a flanged pipe containing a flammable liquid, the likelihood of
a flammable atmosphere being present is much lower since it will only occur
if the flange leaks.  Rather than work with an infinite range of possibilities, three zones are defined.

Gases and Vapours

There are three zones for gases and vapours:

For complete definitions refer to IEC 60079-10

Zone zero is the most severe zone (the highest probability of flammable atmosphere presence).  Equipment for this zone needs to be very well protected against providing a source of ignition.

Dusts

There are three zones for dusts:

(The presence of dust layers does not automatically lead to the dust zone.  The likelihood of the dust layer being disturbed to create a cloud needs to be considered.  Dust layers also need careful consideration in terms of ignition temperature.  Because the dust layer can make the equipment under it hotter then normal, a factor of safety is applied to the layer ignition temperature.)

The (auto) ignition temperature of the hazardous material (Temperature Classes)

As well as considering the protection against electrical arcs and sparks igniting a flammable atmosphere, consideration needs to be given to the surface temperature of equipment.  (Most electrical apparatus dissipates some heat!)  Flammable materials are categorized according to their ignition temperature.  Again, rather than work with an infinite range, six temperature classes are defined as follows:

The bigger the T-number the lower is the ignition temperature of the hazard.  So equipment to be installed in hazardous areas where the hazard has temperature class T5 or T6 must be ensured not to get hot.  Electrical equipment is marked with a T-Class.  The T-Class on the equipment states that the equipment will not provide an ignition capable surface hotter than the temperature represented by the stated T-Class.  For equipment in hazardous areas, the bigger the T-Number on the equipment the less hot it will get.

Protecting Electrical Apparatus to make it suitable for use in hazardous areas

Electrical apparatus for use in hazardous areas needs to be designed and constructed in such a way that it will not provide a source of ignition.  There are ten recognized types of protection for hazardous area electrical apparatus. Each type of protection achieves its safety from ignition in different ways and not all are equally safe.  In addition to the equipment being suitable for the Gas Group and the Temperature Class required, the type of protection must be suitable for the zone in which it is to be installed.  The different types of protection and the zones for which they are suitable are as follows:

Equipment complying with European (CENELEC) standards will bear the code EEx..  equipment complying with national standards will bear the code Ex...

Standards

There are various standards which give details of hazardous area requirements.  In the main, the IEC standards are now parallel voted by CENELEC (Europe).

Top level standard

EN1127-1    Explosive atmospheres: Explosion prevention and protection.  Part 1: Basic concepts and methodology

Standards for Equipment

(In general, the standards for equipment design will be of little interest to the equipment user. See standards for installation etc. below.)

The standards in the series EN 50014 through EN 50021 and EN 50028 are gradually being replaced by various parts of standard EN 60079. As this happens, the old standards are either being withdrawn (or in some cases remain current but obsolescent).
 

EN 60079    Part 7: 2003  Increased Safety 'e'

EN 60079    Part 15: 2003  Type of protection 'n'

EN 50014    Electrical apparatus for potentially explosive atmospheres: 
                  General requirements

EN 50015    Electrical apparatus for potentially explosive atmospheres: oil immersion 'o'

EN 50016    Electrical apparatus for potentially explosive atmospheres: pressurization 'p'

EN 50017    Electrical apparatus for potentially explosive atmospheres: powder filling 'q'

EN 50018    Electrical apparatus for potentially explosive atmospheres: flameproof 
                  enclosure 'd'

EN 50019    Electrical apparatus for potentially explosive atmospheres: increased safety 'e'

                  (1994 edition now withdrawn. 2000 edition now classed as current but
                  obsolescent.)

EN 50020    Electrical apparatus for potentially explosive atmospheres: intrinsic safety 'i'

EN 50021    Electrical apparatus for potentially explosive atmospheres: type of protection 'n'.

                  (Note: this standard 'stands alone' and does not specifically refer to the
                  general standard EN 50014.)

                  (1999 edition - latest edition - now classed as current but obsolescent)

EN 50028    Electrical apparatus for potentially explosive atmospheres: encapsulation'm'

EN 50039    Electrical apparatus for potentially explosive atmospheres: specification for
                   intrinsically safe electrical systems

Standards for Installation etc. (gases and vapours)

IEC/EN 60079-10:2003  Classification of hazardous areas
                                   (The 1996 edition is now withdrawn)

IEC/EN 60079-14:2003  Installation (and selection) of equipment in hazardous areas

IEC/EN 60079-17          Inspection and maintenance of equipment