I'm not sure I ever remember seeing them. You might be able to view them in the IET Library.

Some of us do have extensive technical libraries ourselves ...  can we be of assistance in helping look something up for you (or indeed, we may know the answer off-pat, you never know) ?

Where abouts is this library? I’m just wondering when regulation 521.5.1 came in. I wanted to look it up in the 17th and 16th….

IronFreely said:

Where abouts is this library?

The IET library is at Savoy Place in London (some titles, though, they can post out to Members).

My library is associated with my home office!

IronFreely said:

I’m just wondering when regulation 521.5.1 came in. I wanted to look it up in the 17th and 16th….

Which para are you looking at specifically? Eddy currents (paras 1 and 2), or the "parallel cpc" (para 3)?

We'll have to look back further than 16th Edition when talking about eddy currents. The first 2 paragraphs are effectively very old and can be traced back to the 15th Edition pretty much in their current form, but prior to that, 14th Edition had a similar Regulation B.100 for  conductors of AC metal conduit.

Para 3 (clearly permitting parallel cpc for armoured cables) was not present in BS 7671:2018, but came in at 17th Ed Amendment 1 (BS 7671:2018+A1:2011). It is interesting to consider, though, under what conditions a parallel cpc may or may not be useful (for example, whilst it would definitely be OK to consider it for faults downstream of the SWA+cpc combination, for buried SWA cables, where we have a fault line (or lines) to armour following severing of the cable, the parallel cpc may well be ineffective).

If you let me know, I can provide some more info on the bit you're interested in, expanding on the above.

The library is in the IET building - between the Embankment and the strand in London. however, to save you the time you have 3 choices. Whcich did ou want, mechanical forces, trunking flammability or cable types - the same bit of the regs has been all of these over the last few editions.

Leaning heavily on the way UK copyright law allows reproduction of extracts of copyrighted documents  for study or criticism, here is a chance to compare and to criticize the numbering schemes...

17th Edition

521.5 A.C. circuits: electromagnetic effects
521.5.1 Electromechanical stresses
Every conductor or cable shall have adequate strength and be so installed as to withstand the electromechanical
forces that may be caused by any current, including fault current, it may have to carry in service.

16th edition 2001 version

or 15th

It’s paragraphs 1 & 2 I’m interested in, specifically that “an appropriate protective conductor” should be contained within the same enclosure and that these conductors should be “collectively surrounded by ferromagnetic material”

Was it worded in the exact same way in both the 17th and 16th editions? I’d be very appreciative if you were able to tell me if it was still regulation 521.5.1 in both 16th and 17th, this might sound silly but what page number was it on in these editions.

I have a copy of the 17th A1 2011, I can see the wording hasn’t changed at all in any subsequent edition and remains regulation 521.5.1 to this day. I’m interested to see if this evolved at all from the 16th edition? 

the exact reg numbers and page numbers would really help.

17th Edition BS 7671:2008

521.5.2 Ferromagnetic enclosures: electromagnetic effects
Single-core cables armoured with steel wire or steel tape shall not be used for an a.c. circuit. The conductors of an a.c. circuit installed in a ferromagnetic enclosure shall be arranged so that all line conductors and the neutral conductor, if any, and the appropriate protective conductor are contained in the same enclosure.

Where such conductors enter a ferrous enclosure, they shall be arranged such that the conductors are only collectively surrounded by ferrous material.

16th Edition 1991 (including BS 7671:1992) to 16th Edition BS 7671:2001+A2:2004

521-02 Cables for a.c. circuits - electromagnetic effects
521-02-01 Single-core cables armoured with steel wire or tape shall not be used for a.c. circuits. Conductors of a.c. circuits installed in ferromagnetic enclosures shall be arranged so that the conductors of all phases and the neutral conductor (if any) and the appropriate protective conductor of each circuit are contained in the same enclosure.

Where such conductors enter a ferrous enclosure they shall be arranged so that the conductors are not individually surrounded by a ferrous material, or other provision shall be made to prevent eddy (induced) currents.

15th Edition 1981

Cables for a.c. circuits - electromagnetic effects
521-8 Single-core cables armoured with steel wire or tape shall not be used for a.c. Conductors of a.c. circuits installed in ferrous enclosures shall be arranged so that the conductors of all phases and the neutral conductor (if any) are contained in the same enclosure. Where such conductors enter ferrous enclosures they shall be arranged so that the conductors are not separated by a ferrous material or provisions shall be made to prevent circulating eddy currents.

14th Edition (similar "topic" to cyan highlight)

B.100 Cables of a.c. circuits installed in steel conduit shall always be so bunched that the cables of all phases and the neutral conductor (if any) are contained in the same conduit.

So, it looks like "eddy currents" for cables entering enclosures came in with 15th Edition, but "all conductors of AC circuits being enclosed together when enclosed by ferrous metal" was a concept existing in 14th Edition (or perhaps earlier ... I haven't looked back any further). Hopefully this is what you're looking for, and that my highlights for 15th, 16th and 17th Editions are helpful?

That’s really helpful thank you! May I ask two questions? First of all do you know what page number 521.5.2 appeared in on in 2008 edition.

My second question, I had a feeling that around the 16th edition the requirements changed slightly to include the “appropriate protective conductor”. I’m just wondering why? Surely as the protective conductor is only carrying current under fault conditions and for a short period of time (assuming disconnection times are met), it seems unlikely that there would be any significant overheating in this time. 

Im a best practice kind of guy so I don’t question the practice, but I’m interested in why the powers that be saw fit to include the protective conductor? Were there incidents.

Surely as the protective conductor is only carrying current under fault conditions and for a short period of time (assuming disconnection times are met), it seems unlikely that there would be any significant overheating in this time. 

I suspect there's an idea that a conductor on the other side of a ferrous barrier has extra inductance - so the earth fault currents may be reduced (extending disconnection times etc)

   - Andy.

There are two problems, one really is eddy currents (electric currents induced transformer-like along the length,  parallel to the net current enclosed)

This sort of effect is just as serious on AWA or SWA, as in conduit and is the one where brass glands run hot...  The second, and the one where the ferrous nature of the enclosure matters, is magnetic hysteresis losses, the periodic de and re magnetizing in the magnetic materials surrounding the enclosed wires, the lines of action forming of loops of magnetic field around the wires - i,e. at right angles to current flow, Split tube conduit and most SWA is not as badly affected by this as proper seam welded conduit the air gaps lower the round loop reluctance massively.

This reg is all about magnetic losses. Not currents. you could slice the steel conduit into short tubes or even washers and thread it on the wires, and still get the magnetic losses. The eddy current effects however would be stopped.

But it is often not clearly taught, and to pour water on troubled oil, some sloppy text books from the last century, by folk who should know better referred to the magnetic case as 'eddy current loss' when really it is a completely separate and orthogonal effect, and the error seems to perpetuate.

When serious fault currents are involved the magnetic material tends to saturate nearest the wire, and the losses tend to stop rising any more beyond a certain point. (in other words the series inductance, and its loss tangent, fall away)

Mike.

IronFreely said:

First of all do you know what page number 521.5.2 appeared in on in 2008 edition.

97

IronFreely said:

My second question, I had a feeling that around the 16th edition the requirements changed slightly to include the “appropriate protective conductor”. I’m just wondering why? Surely as the protective conductor is only carrying current under fault conditions and for a short period of time (assuming disconnection times are met), it seems unlikely that there would be any significant overheating in this time. 

I'm not 100 % sure, but there is clearly an issue with inductance etc. ... Have a look at what is now (and in 17th Ed) 543.6.1.