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Domestic consumer unit rating with PV and battery storage.

Mspark

Having read the COP on  Electrical Energy Storage Systems and  completed the IET course on the same subject I had a query regarding the rating of domestic consumer units and switch gear which I addressed by email to NICEIC technical. I also came across an older discussion on this forum but am still no closer to a definitive answer. I've included my findings and would welcome constructive input. 

Post by GKenyon in previous thread

Because an EESS charges the battery as well as as discharging it, you will need to check the rating of the CU is not exceeded. For example, if the CU is rated for 100 A, and there's a 100 A service fuse, and a 16 A output battery storage system - by feeding 16 A in at one end through an OCPD, because that OCPD gets hot it contributes to the total heat load in the CU - therefore the CU should be rated for 116 A.

My question to NICEIC.

Hello
Please can you help with the following.
Domestic installations with PV and/or battery storage.
551.7.2 Where the generating set is connected to either the main consumer unit or via a separate consumer unit via Henley blocks the rating of the consumer units shall be protected by a OCPD InA≥In+Ig(s).
Where In = 100A DNO fuse and Ig(s) = 16A MCB or 2 x 16A MCB's which would be 116A or 132A, what inspection code should be given on an EICR where a standard domestic consumer unit is fitted which has a rating of 100A. Can any allowance be given on connected load being less than 100A or as the regulation relates to the rated current of the assembly and is a "shall" requirement does the load have no influence on the code assigned. 
Answer from Certsure

The Certsure Technical Helpline provides general information and guidance for compliance with the British Standard BS 7671, the Requirements for Electrical Installations, and matters concerning electrical safety within electrical installations designed, constructed, inspected, and tested to BS 7671. Without detailed knowledge of your installation, we cannot offer advice specific to your installation and can only generically provide comments based on the information you have provided.

The intent of the regulation is to ensure that the assembly is not overloaded with the additional generating set, as the main fuse may not protect the assembly if for example the internal busbar is pulling 116A.

Regulation 536.4.202 states: see regulation

From the viewpoint of an EICR, we would be looking for evidence that the assembly is being overloaded, such as burning, distorting and the likes.

The above regulation allows for diversity to be taken into account, so we can exercise our engineering judgement in declaring whether or not the assembly is suitably protected.

We trust that we have answered your current question; however if you require any further information or clarification, then please do not hesitate to contact us either by e-mail to helpline@certsure.com or by telephone on 0333 015 6628

I've read 536.4.202 and am interested on your views on the last paragraph with the shall requirement and how this ties in with the answer given by certsure. 536.4.3.2 is also relevant but has not been mentioned in the reply.

Thanks for your time.

Parents
  • 0

    Sadly, the wording in Regulation 551.7.2 is what it is right now.

    It's still open to interpretation I feel. There's nothing in the words that I can see that says we have to treat the storage system as a generator when it's not actually in use as a generator, or treat it as a load when it is generating. It says 'a generating set used as an additional source of supply' rather than say 'a generating set capable of being used as an additional source of supply' so I don't see why we can't treat the charging/generating modes separately. It then becomes simple:

    In charging mode, there's just the one load - so it's a simple final circuit with no generation involved so 551.7 doesn't apply at that time.

    In discharging/generating mode, it has no loads directly connected, so it's not a final circuit any more, and so the first indent of 551.7.2 (on the supply side of all the protective devices for the final circuits of the installation) is satisfied.

    Stick another load/sockets on the storage system circuit though and everything changes - it then becomes the sort of tricky situation that bulk of 551.7.2 seems intended to handle and then we do have to go down the Iz ≥ In + Ig route (as perhaps we should consider for distribution circuits too in some circumstances, but that's a slightly different argument again).

       - Andy.

Reply
  • 0

    Sadly, the wording in Regulation 551.7.2 is what it is right now.

    It's still open to interpretation I feel. There's nothing in the words that I can see that says we have to treat the storage system as a generator when it's not actually in use as a generator, or treat it as a load when it is generating. It says 'a generating set used as an additional source of supply' rather than say 'a generating set capable of being used as an additional source of supply' so I don't see why we can't treat the charging/generating modes separately. It then becomes simple:

    In charging mode, there's just the one load - so it's a simple final circuit with no generation involved so 551.7 doesn't apply at that time.

    In discharging/generating mode, it has no loads directly connected, so it's not a final circuit any more, and so the first indent of 551.7.2 (on the supply side of all the protective devices for the final circuits of the installation) is satisfied.

    Stick another load/sockets on the storage system circuit though and everything changes - it then becomes the sort of tricky situation that bulk of 551.7.2 seems intended to handle and then we do have to go down the Iz ≥ In + Ig route (as perhaps we should consider for distribution circuits too in some circumstances, but that's a slightly different argument again).

       - Andy.

Children
  • 0 in reply to AJJewsbury
    AJJewsbury said:
    In discharging/generating mode, it has no loads directly connected,

    That might be the case if it's a hybrid inverter ... but that's not the only solution.

    However, I'm not 100  % convinced with 'a generating set capable of being used as an additional source of supply' either, because the grid-connected inverter is always connected in parallel when the grid is energized, whether it's exporting or not.

    And to add weight to this argument, Regulation 712.551.7.2 exists to make the situation very plain and simple for Solar PV, without playing semantics.

    The hidden risk with playing semantics, is that only a court might unravel the truth of the matter if things went sadly wrong - in this case, for example, any overcurrent situation where it could be claimed that compliance with the formula for Iz in Regulation 551.7.2 might have saved the day.

    I simply think something similar needs saying for battery storage, plain and simple.

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