rutz wrote: Small update on software. BGI 5188 is implemented in Digsilent but Digsilent in general has very poor arc flash module
Also BSD Dresden has some simple software (German PPE manufacturer)
BGi 5188 as published is not very well documented comparing to IEEE1584 if you try to look to all limitations and model coefficients. As far I see it is good approach however this year IEC61482 introduced ELIM which is not very clear yet ( Jim can say more) but intention is to make ATPV easier to get CE marking, correct me if I'm wrong.
Yes, IEEE 1584 can be used to calculate the incident energy to specify arc rated clothing and PPE based on IEC 61482-1-1: Test methods – Method 1: Determination of the arc rating (ELIM, ATPV and/or EBT) of clothing materials and of protective clothing using an open arc. The latest edition was just recently published and reflects the efforts of many global experts all dedicated to creating international standards.
In regards to your question about CE marking, ELIM was created so that IEC 61482-1-1 would be approved by the CEN consultant. CEN is the European Committee for Standardization and standards.
The CEN Consultant is an Independent expert whose role is to provide guidance and advice to the Technical Committees (TC), Subcommittees (SC) and Working Groups (WG) preparing draft European Standards.
Among the many responsibilities of this person are: Provides guidance to Technical Committees on their work programs in relation to New Approach Directives. Facilitates the standard drafters’ understanding of the Essential Requirements (ERs) of the Directive concerned. Checks the conformity of the draft European Standard with these ERs Provides comments, if any, on drafts submitted to the CEN Enquiry. Provides indicative assessments of drafts as agreed with the Technical Committee at any time during the development process. Provides advice to CEN and the European Commission as necessary.
At issue was the concern regarding ATPV which is “is the value of incident energy at which the heat transfer through the test specimens is enough to reach the Stoll criteria with 50 % probability” and Ebt which is the Breakopen Threshold Energy that is the value of incident energy at which breakopen occurs with 50 % probability. The 50% number was a show stopper for the CEN consultant so ELIM was created.
The Incident energy limit - ELIM is a numerical value of incident energy attributed to a product (material or clothing), below which value all product responses are below the Stoll curve and without Breakopen. The ELIM of a material or material assembly is calculated from data points obtained from testing a set of test specimens, which are also used for the determination of the ATPV and/or EBT.
So, a long answer to your question, ELIM was created so the standard would be accepted by complying with the CEN Consultant requirements so it could be used in Europe.
My normal disclaimer, although I’m Chair of TC78 Live Working which oversees this standard, the above are my comments and not necessarily representative of IEC.
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