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Multiple EV points?

alanblaby

I do occasional maintenance for a local hotel. 100A 3 phase incomer.

I was there this week and noticed they had had 4 EV chargers fitted in their car park. Now, the cable supplying the DB they have fitted, was fitted by me 2 years ago. They have taken out a newish Hager DB to fit a Fusebox one in its place. No idea why they'd do that, as it would have been easy to buy new Hager RCBOs and surge devices. Anyway, the cable is 10mm 4 core. How on earth do they run 4 chargers off that, as well as the (minor) loads for the bar area? Is it usual to have load protection/limitation on such an array of chargers?

And on a similar point, the total load required by the hotel isnt great, electric cooking, partial panel heating, but adding 4 chargers seems to be getting toward the limit of the incoming supply. Is this negated by the load limitation devices (if fitted)?

  • I would hope it's been designed and installed to take a account of the supply, current transformers and load limiters,or a priority unit.

    More likely is someone has just wired extra ones up with no thought.

  • I think that more information is required - type of cable, reference method, make and model of EVCP, etc.

    The most conservative CCC of a 4-core cable is 50 A per phase - Table 4D4A RM D.

    I assume that the chargers are 3-phase, else one phase would have two of them.

    If the chargers are set to a maximum of 7 kW, that is (7000/230)/3 = 10.1 A per phase, so not a lot of headroom for the other loads.

    I suppose that in due course, if not currently, all four chargers could be in use for up to, say, 14 hours (18:00 until 08:00). That would be 7 x 14 x 4 = 392 kWh. At 25 p/unit, that comes to about £90 per night. I wonder how much the hotel will charge their customers?

  • in reply to Chris Pearson

     I wonder how much the hotel will charge their customers?
    Enough to pay for the supply update they will eventually need I imagine.

    Quite often these things are installed and operate by a third party franchise outfit who install the machines and handle the billing but then pay the site owner by the kWhr plus a small base rent that varies with the location.
    The EV owner then pays through one of the standard apps.

    Joking aside, if they are properly networked, and if they are or not is perhaps a moot point, it is certainly possible to set a group of commercial chargers like that up to play nicely together and to wind the amount the car can demand up and down to stay at some target load level, and even to ensure that all vehicles in a mesh of chargers get an even share of the high current time. If folk are charging overnight at the hotel, and this is known, the requirement is not really for  all to be on at once. They can be parked in the bay but now fully charged, if the requirement is just to be ready to go by breakfast time, then it's not such a bad load profile and may fit in with the hotel not being at peak load as well, by making sure charging is tailing off before the other loads like boiling water for breakfast related things and so on  are coming on.


    Mike.

  • in reply to Chris Pearson
    Chris Pearson said:
    If the chargers are set to a maximum of 7 kW, that is (7000/230)/3 = 10.1 A per phase, so not a lot of headroom for the other loads.

    Are we sure about that? The chargers might be three-phase, but if Mode 3, the vehicle is likely to be single-phase, so setting to 7 kW = 30.5 A at 230 V, or, because vehicle internal chargers on Mode 3 have switching converters, if you use the maximum volt-drop in BS 7671, giving a voltage range on ESQCR supply at the charging equipment of +10 % / - 11 %, you might get up to 34.2 A (instead of the maximum of 33.1 A you might expect with a linear load and +10 % supply voltage variations).

  • in reply to gkenyon
    gkenyon said:
    The chargers might be three-phase, but if Mode 3, the vehicle is likely to be single-phase

    As far as I can see, the vast majority of vehicles have an on-board charger limited to 11 kW (TP) and 7 kW (SP). I assume that the on-board charger will use all three phases if they are available.

    Only a few cars can draw 22 kW, and some basic models can only use SP. Some vehicles are limited to 3.7 kW.

    If you go with 11 kW (TP), that is 16 A/phase, which potentially exceeds the CCC of the OP's distribution circuit. However, from the installation manuals that I have seen, the output can be limited to a lower value, which is why I suggested 7 kW (TP).

    If they have not limited each EVCP, then Alan's concerns are entirely justified.

  • in reply to mapj1
    mapj1 said:
    Quite often these things are installed and operate by a third party franchise outfit who install the machines and handle the billing but then pay the site owner by the kWhr plus a small base rent that varies with the location.
    The EV owner then pays through one of the standard apps.

    Well, of course there is a big difference between a 300 bed purpose-built city hotel and a country house conversion. We have not been told which.

    If the EVCPs are installed along Mike's lines, they are potentially a source of profit, so all well and good.

    I was thinking more along the lines of the country house hotel where the EVCPs enhance the establishment's green credentials, especially if they have, or aspire to a green star, in addition to the all-important red ones.

    Some of the vehicle owners may just be dining at the restaurant, so they are unlikely to have travelled very far, but topping up for 3 hours would appeal. By contrast, residents are likely to have travelled further, even to the limit of their EVCP's range. All-night charging might dent the profit margin, but an extra £5 on every room should be an adequate remedy.

  • in reply to Chris Pearson
    Chris Pearson said:

    If the EVCPs are installed along Mike's lines, they are potentially a source of profit, so all well and good.

    I was thinking more along the lines of the country house hotel

    Yes, it is a small, rather downmarket hotel, that mostly trades on passing tourist traffic for the odd one or two nights. I'd never heard of that model of EV charging business - in effect, renting space for a third parties EV chargers, which is the most likely way they have been fitted, as I doubt they would willingly pay the £7k+ cost of fitment.

    They are Rolec units, (https://evonestop.co.uk/products/quantum-three-phase-socketed). From reading the data sheet, they can be load managed and balanced.

    I saw them and had visions of being called out regularly in the summer when the distribution circuit breaker tripped, but, they surely must have upgraded it from the 40 amp one that I fitted, but I still have doubts about the distribution cable capacity.

    Thanks all.

  • in reply to alanblaby

    As ever, Mike got it on the nose. :-)

    It might be all right for a few years, but when everybody has EVs (or at least PEHVs) it could be a real mess. 22 kW x 4 exceeds the supply capacity and in any event, I presume that there is an agreed maximum supply with the DNO.

    The business model for these folk seems to be to get the site and wait. Our local petrol station in the sunny suburbs on the south coast has two Instavolt EVCPs. Custom is sparse and I can probably count on my thumbs the number of times that I have seen both in use (with socks off, I might count the number of solo users). With reasonably spacious plots in the neighbourhood, I cannot see any change for many years.

    Back to Alan's situation, clearly the total capacity of these EVCPs is limited. I suspect that customers would expect more.

  • in reply to Chris Pearson
    Chris Pearson said:
    I assume that the on-board charger will use all three phases if they are available.

    I'm not sure about that ...

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