SIMULTANEOUS CONTACT QUESTION - 2 x EV vehicles parked next to each other

lyledunn said:

Graham,

Could you set out an example?

Sorry, I missed this.

It's to do with assumptions based on disconnection times, particularly for TN systems, and also the fact that the shock will be hand-to-feet ... whereas 'simultaneously-accessible exposed-conductive-parts' provides a path hand-to-hand (which may render some of the assumptions for general ADS touch-voltage and time exposure invalid.

Remember also, that it's not JUST the disconnection time of the EV circuit ... but could be a 1 s (TT) or 5 s (TN) for a distribution circuit in the same installation, which will transfer a potential through the cpc to the exposed-conductive-part.

rules on where you can site a heat pump have now been relaxed, so it's possible to have two houses' heat pumps within touching distance of each other.

Although typically with a fence or hedge or boundary wall in between, lessening the changes of someone actually touching both simultaneously.

Possibly a bigger risk is of one heatpump (or outdoor light, or EV or ... ) being held a a potential significantly different from the surrounding ground itself - ether because the ground is better at being at "true earth" potential, or because the local ground potential is raised (by lead sheathed cables or bonded metallic pipework) via the influence of another earthing system. Ditto for adjacent metalwork (e.g. fencing or garden supports) that can bring local ground potential to hand height (bypassing any shoe insulation) within reach of the HP. ADS really isn't ideal outdoors.

   - Andy.

Dom said:

Really intersting point regards the issue of possible voltage offsets. How do you view some of the present issues with cars being charged near street furniture but being supplied by a domestic property.

If the street furniture has simultaneously-accessible exposed-conductive-parts, the IET CoP states they should be on the same earthing system, or mechanical protection/barriers etc put in place to prevent simultaneous contact.

On-street, this assessment is absolutely necessary, regardless of whether it's a private or public supply - otherwise it doesn't conform to BS 7671 Regulation 411.3.1.1.

Dom said:

The potential here is the fact the house is on a PME and the lampost a dedicated TN-S. The car is within the 2.5 metre distance so simultaneous contact is possible. 

Wouldn't matter whether it was two separate PME systems, two TN-S, or two TT (or any combination) ... if they are not classed as the same earthing system, doesn't conform to BS 7671. This is, as stated previously, spelled out in the IET CoP for EV Charging Equipment Installation (Section 3.5):

Dom said:

Just for my own clarity as well - I see a lot of comments around the 2 earthing systems and the possible issues with ADS, what are the other concerns here if you do not mind me asking? In respects to how you view the faults, what are the risks in simple terms? The more I look at this issue the more I find it impossible to offer a solution. 

The issue is a fundamental one relating to touch potential during a fault, and disconnection times ... and hand-to-hand vs hand-to-feet touch potential. Basically, the disconnection times in Chapter 41 apply only where Regulation 411.3.3 is conformed to.

Remember also, that it's not JUST the disconnection time of the EV circuit ... but could be a 1 s (TT) or 5 s (TN) for a distribution circuit in the same installation, which will transfer a potential through the cpc to the exposed-conductive-part.

Excellent as always Graham, thank you very much.

Will we see O-pen protection on heat pumps soon???

On EVs, HPs, outside lights, sockets that could be used for class I equipment outdoors.... Why not just put an open-pen device at the origin and cover the whole installation? It could even be built into smart meters - presumably the voltage monitoring is already there, along with the ability to disconnect and it could even tell the DNO what's happening in real time. They'd just need an extra contact or two to switch N and PE (or PEN).

That said, single phase open-PEN technology relying on L-N (or L-PE) voltage measurement isn't 100% reliable - it can be blind to certain broken PEN conditions where 3-phase distribution is used, and likely won't spot the offset reference situations, like the one lyledunn mentioned above, at all.

Plus you need to be careful of extraneous-conductive-parts or other c.p.c.s by-passing the PE contact of the open-PEN device - e.g. pipework or c.p.c.s of control wiring (or screens of comms cables) for a HP. 

   - Andy.

AJJewsbury said:

On EVs, HPs, outside lights, sockets that could be used for class I equipment outdoors.... Why not just put an open-pen device at the origin and cover the whole installation?

Because it's simply not practicable ... because ... you can't permit bonding (main or supplementary), or accidental contact of exposed-conductive-parts with extraneous-conductive-parts, downstream of an OPDD, otherwise it's not working as an OPDD.

It might be possible (as done with some EV charging installations) to put an OPDD in a feeder pillar, and use this to supply a number of EV charging points ... but you do have to be careful.

AJJewsbury said:

That said, single phase open-PEN technology relying on L-N (or L-PE) voltage measurement isn't 100% reliable - it can be blind to certain broken PEN conditions where 3-phase distribution is used, and likely won't spot the offset reference situations, like the one lyledunn mentioned above, at all.

Plus you need to be careful of extraneous-conductive-parts or other c.p.c.s by-passing the PE contact of the open-PEN device - e.g. pipework or c.p.c.s of control wiring (or screens of comms cables) for a HP. 

Agreed.

You might just make the supply less reliable overall !!!

Because it's simply not practicable .

In some situations, yes, I'd agree. But in a conventional new build- all services coming in in plastic pipes, probably not even a copper phone line these days and supply cables PVC jacketed, wouldn't the argument against be weaker? Fortuitous contact with local terra firma might be undesirable in theory, but would pose a much lower risk in practice once the metallic connection to the DNO's PEN is removed. There may be advantages to doing it at the meter as well - loads that would contribute to pulling the severed PEN up to a hazardous voltage in the first place would be removed (estates of new builds would likely be 100% new meters) and early/accurate DNO notification should reduce the duration of the fault - both reducing the risks overall.

You might just make the supply less reliable overall !!!

Sure, swings and roundabouts with all options. Spending money on fixing the DNO's networks to reduce the likelihood of broken PENs in the first place rather than expensive gadgets in tens of millions of installations might be a better option when considered at a national scale (neither offering a 100% guarantee of course).

   - Andy.

Hi Graham and to everybody that has contributed to this problem.

I have received the following response from UK Power Networks.

Hi Dean,

I have had a response from the area who has confirmed that although the connection points are TNS and TNCS they are fed from the same transformer which is PME so are connected to the same earth on the network itself.

Kind regards

Looks like Regulation 411.3.11 has been satisfied.

Hopefully this thread highlights various options for installers.

AJJewsbury said:

Although typically with a fence or hedge or boundary wall in between, lessening the changes of someone actually touching both simultaneously.

You would think so, but a pair of neighbours could each hang one on the same boundary wall.

As Mike keeps saying, there are theoretical risks, and there is reality.

Maybe a tall wooden fence should be erected between the driveways?