Solar Energy Systems installation UK - lack of skills

As I researched Solar Energy systems for over a year now I discovered how little I understood the dangerous realities of Solar installations even though powered at ELV level <50Vdc.  The difference being that you are dealing with a constant current of 50 - 100's A dc.  Average Joe, maybe used to Auto/Truck 12/24Vdc  systems probably sees the system as safe - you dont get a shock (boat owners will disagree).  So the hazards of installing a dc distribution system  within a domestic house and the potential to cause disastrous fires are totally underestimated.  Even the average tradesman electrician will not have sufficient training in such matters in his CPD scheme.

To make matters worse, as a result of a question by a neighbour who want to suggest to his lad that he follow an Electrician apprenticeship, I discovered that my area (SE UK) has no regular Technical College Route pursuing CnG courses.  Apprenticeships are very rare and as a rule focus on training junior managers. 

In short, a young person cannot readily find his way in to becoming and electrical tradesman ( I have to make a distinction between the concept of a Technician here)

When you aggregate the complete installation identifying all physical components, the SLD suddenly becomes quite complex.  ie Going from Panel Arrays > optomisers > cables > marshalling boxes > Fuse links > Isolators > Master Circuit Breaker > Inverter (s) > Battery Bank > Domestic Consumer Unit > Grid resale meter > Master Isolator > standby generator > Auto Transfer Switch, Control and monitoring systems, Emergency shutdown scheme.

When you seen the numerous wannabee hopefuls going offgrid and often their lack of formal technical training they dont realise how dangerous their rough and ready installation is

I can post links to many sources of my concern here if there is sufficient interest

Robin 

Parents
  • Yes ELVs <50Vdc.  IMHO its sheer madness to be involved with MV dc Panel strings - way too dangerous  IMHO in a domestic environment, and we dont have the skilled tradesmen to recognise this type of micro grid nor is there a recognised route to upgrade to this unfamiliar but hazardous system.  Way too many unschooled wannabees playing with fireworks.  It is utter negligence by our Political leaders to allow this to continue.  They only woke up to the hazards of amateur plumbers who didnt understand flammable atmospheres till a few houses were blown up flattened.  Then British gas had to step in a institute proper training courses with local tech colleges.  Where do our Electricians get proper upgrades?  A one man jobber cant afford an apprentice (with all the paperwork and oversight involved). He will only have a family member or friend involved.

  • and anyone who has tried it will tell you that 3 car batteries strike up far better but to go easy anyway, as it does them no good at all. A few minutes non stop welding can heat the battery acid to a temperature that does irreversible damage. On the very rare occasion it is needed, I prefer to see the batteries put in a ditch or on the other side of something solid like  a vehicle, so if one does boil and vent, the scope for injury is limited, and not all on-line videos show sensible behaviour - but that is not just about welding.
    It is quite a good thing to know how to do however.

    Mike.

  • However far more important is how to relate available energy, or rather rate of delivery, into a safe arc radius to avoid instant sun-tan or worse being basted with molten metal, and then to either limit access for body parts, or the energy available during fault, so that the two never coincide. By the time you are talking about needing buckets of sand, if you are in earnest, you are already on the wrong side of a how to design things safely.

    M.

    (Who is very much not afraid of 3 phases either 400 or 690, when properly fused and in suitable containment, or indeed higher voltages too, but with rather more caveats. )

  • when properly fused and in suitable containment, or indeed higher voltages too, but with rather more caveats. )

    Anyone understand this?

    Gone OT here

    I wasnt discussing using car batteries for regular welding, simply giving an example to show that you need a minimum voltage to sustain a dc arc, 12Vdc is not enough, 24Vdc will do it.

    The real danger to health from an arc blast is the molten droplets of copper becoming instantly vapourised and expanding with explosive force ca 70,000 times expansion.  You dont want that in your face, nor the huge blast of UV and eye damage.  Its why copper fuse wire is encased in a ceramic tube and HRC fuses have sand added as well to quench the arc.  Look up YT and see some examples of fuse rupturing fault currents.

    Fuses are given  an AIC or Amperage Interrupt Capability is the maximum fault current that the protective device is able to clear safely without causing damage to equipment or personnel or welding closed.

    This can be 5-20kA 20,000 Amps! typically (or much larger for HV).  Plenty of room to study here to really understand the risks as I have this past year and is the reason for my OP.  Electricians are not traditionally trained in this specialised area of LV dc high current systems. 

    Even something as elementary as making ring terminal bolted joints can go badly wrong (as per busbars in battery banks).  If you use a Flir IR camera it will be surprising to see where significant hotspots are developing within those bulky cables under full load.  Those hot spots over time can develop tiny arcs that grow seriously.  viz YT

    Off gridders know about this.

  • Indeed - hence the point about enclosure/ containment. There is a tendency among those who have not seen it for real to think that ELV quite is safe to have exposed terminals - and it may well be safe from a shock perspective, and in more traditional cases where the fault current is limited such as bell transformers and dry batteries.

    With all but the smallest lead-acid or Lithium-ion and similar the impedance can be very low, and there is no such protection, and the effect of a spanner or strap of a wristwatch causing a fault path to the wrong place  however can be devastating, forming that accidental welder without the current control.The burns on a finger from a briefly red hot wedding ring are pretty unpalatable as well. I've not done it but I have seen the pictures.

    Even in a pocket 'vape' the current in the heater coil can exceed 20A from a lithium cell that is only a few CM3 in volume . Scale  to something the volume of a small fridge and the potential energy is pretty impressive very quickly.

    The headline has to be - with battery banks, shock is not the only risk, and 'just' ELV wiring needs increasing respect the more current is available .

    Mike.

  • Well said Mike, but out governing Powers and indeed the technical training organisation and their learned bodies have largely ignored this emergent electrical area (even though the hazards are well understood for a century in such industries as electric traction, electroplating, telephone exchanges etc).  No young engineers or electricians receive any specific instruction in the nature of ELV dc distribution.  Its left to old timers like myself who came up through industry and formal education to recognise this drastic gap in training.  When I was tasked with the recruitment "milk round" , I was very disappointed at the poor quality of graduate training for Electrical Engineers who were expected to go on to become system designers.  IMHO they would need a full 5 years alongside an experienced site engineer just to get a proper grasp of the subject.  We don't have such mentors available any more and plant electricians don't have time or patience to carry students along (neither generally are electricians funded and trained to give such assistance BTW).

    So that leaves the naive public at the mercy of "Chancers" and "Cowboys" I am sorry to say  (bit like the Roofer trade)

    IMHO we will fall victim to Politico whims and grandstanding as has happened with " promotion of Diesel vs Petrol cars", Electric vehicles (2nd values plummeted ,  Heat pumps, HS2 rail (never once was the concept of modern VIP style coaches with exclusive use of the motorway outer lane considered), Solar farms occupying arable farmland),  pursuit of Nuclear power stations 20years to build 10x original budget using very old outdated technology still producing environmental nightmare waste (see https://www.rolls-royce.com/innovation/novel-nuclear/micro-reactor.aspx

    but what do  kno

  • Surely this doesnt apply to ELV <50V systems? 

    It's a general BS 7671 requirement, so I believe it does. I suspect the thinking behind the regulation is to control the risk of overheating and/or fire from an overheating joint (as ever, compared with an unbroken conductor, joints are a source of weakness) and as that's related to current rather than voltage it doesn't seem unreasonable that it does apply to ELV systems as well (where if anything currents tend to be much larger). Individual product standards may well allow such methods, but usually only in specific circumstances where mitigating factors usually apply.

    No young engineers or electricians receive any specific instruction in the nature of ELV dc distribution.

    Someone must be getting some training - since ELV distribution has been used not only in the areas you mention but in some IT data centres too - where 48V DC distribution is sometimes used. 12V in caravans too (again with the potential for kA fault currents). I'd agree it's not trickled down to your typical domestic installer - but that's because there's little need for it at the moment - almost all commercial systems convert back to 230V a.c. and use the building's existing a.c. distribution system.

       -  Andy.

  • I have got to wonder what your agenda is here.  Are you seriously saying that it requires years of training to wire a few solar panels in series without electrocuting yourself or burning the house down?

    Solar power is now mainstream.  Houses all over the country are covered in solar panels. They work, and it's very rare that anything bad happens.

    I get the impression that you're trying to impose rules to make all larger-scale solar installations so impractical that nobody wants to install them.  Then having done that, you can clain that they were just a green fad.

  • Agenda!!!!!!!!!!!!  I am crying out for amateurs to get themselves properly educated instead of the painful "suck it and see" attempts shown on youtube by technically illiterate bluffers pumping out dangerous practices for the credulous public to play with.  Its as bad as showing kids how to make fireworks.   Perhaps you havent browsed enough of these crass vids to see how misleading and dangerous they are.

    Maybe just sit back and let the inevitable tragic accidents occur 

  • More homework needed here old chap. FYI you cant sustain an arc flash at 12 V.

    Indeed ... although I think we know enough already. It's possible to cause an arc at 12 V DC (not AC) from two conductors in direct contact (we know this from car batteries) ... although it does "blow itself out" as the gap increases as the conductors melt.

    Things can get interesting, though, with "constant current source" behaviour of solar panels and power converters.

    We are talking "arc" and not "arc flash" here, and I would agree 100 % that we don't start to get too many problems with arc flash at 12 V DC, perhaps up to 24 V DC.

  • No young engineers or electricians receive any specific instruction in the nature of ELV dc distribution

    More accurately, I believe it depends where you've been employed in industry. Power supply to controls and telecoms (and 'telecontrol') never went away from ELV DC ! However, I agree in general, when we talk about "electricians" the industry moved away from DC in the 1960s, but it's coming back now !

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  • No young engineers or electricians receive any specific instruction in the nature of ELV dc distribution

    More accurately, I believe it depends where you've been employed in industry. Power supply to controls and telecoms (and 'telecontrol') never went away from ELV DC ! However, I agree in general, when we talk about "electricians" the industry moved away from DC in the 1960s, but it's coming back now !

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