Discuss Ring main. in the UK Electrical Forum area at ElectriciansForums.net
Interesting post this because ....
1) Pete 999 is correct
2)you are correct, and
3)Davesparks is correct.
In reality, the rating factors as Davesparks says may go up or down. Then we need to factor in something not mentioned often enough in the regs (for my liking), "common sense". In reality the likely hood is that insulation in houses will become more used as time goes by. We have this year started to use 16 amp mcb, s as standard for general socket circuits to "future proof" current installation work.
Regarding the statement, there is "no requirement to factor in common sense". Perhaps not in your world, but there certainly is in mine. You are entitled to your own opinion here dave but as, has oft been said, you not entitled to your own facts. New regulations and requirements tend to appear as individuals use common sense and insight rather than just "follow the regs". You have contributed some significant and educational posts on a number of topics, but the above is not one of your finest
Pete and dave are clearly scrupulous in their application of regs etc. End of. However, regs must always be seen as a minimum standard. If possible, it's best to be ahead of the curve rather than behind it..We decided to downgrade to a 16 amp mcb for a number reasons. One, as you mentioned appliances are becoming increasingly more efficient. Seven or 8 years ago we either ran a 6mm to the utility to allow washing machine and drier etc to run simultaneously or 2 x 2.5 t& e, depending on the rating of appliances. In the most recent kitchen we did, the entire load of W. M. and Drier was 3.3 KW. That trend will almost certainly continue. General sockets circuits are no longer used for electric heating like they used to be. Down rating the supply does, nt save us any money but it dies "future proof" the installation regarding the installation of more insulation (which is the norm here).Pete and Dave would apply rating factors and would likely have a decent amount of common sense, whereas I'm enquiring from the position of someone trying to increase their understanding.
One thing I don't get is the idea of 16A circuits being a means of future proofing - while appliances have (and will) become more efficient, it's also likely that they will continue to become more numerous in homes. Surely a better way of future proofing would be to continue to provide a 20A (or higher) supply to those sockets, but using installation methods that are compatible with the sort of insulation you envisage. Downrating the supply sounds more like keeping costs down than future proofing.
My comment was not directed at you, just an observation about how often the ring/radial topic comes up and how divisive it appears to be.Firstly the "feelings of intensity" I personally don't have. And I hope by some of my language I have, nt inspired them. I actually joined this forum because of the quality of the posts. I noticed the tendency to back arguments up with hard facts and that is where I like to be.
No, they were deliberately created together.One point I would like to make. The fused plugs are a direct consequence of the ring circuit with its 32 amp OCPD.
It is convenient, but wasteful.The rest of the world does not need them and its very convenient that way.
That's is a question I would love to have an answer for but I don't. It's a great idea.. a numerical value for common sense. My last post to "nicebutdim" is perhaps an example of the application of common sense. I cannot supply a numerical value, but perhaps a definition "factoring in the likely direction of the society we live in". In mine the focus on improved insulation in the home is very clear. The implication for electrical circuits is thus also very clear. So what is the wisest course of action..... Hence the 16amp.socket circuit.Please explain how you factor common sense in to the calculations then? How to you translate common sense in to a numerical value to be used in calculations?
I am fully in support of the use of common sense where needed, and mourn its demise. But I don't see how it factors in to a calculation. Unless you mean you just arbitrarily adjust the cable size without calculation?
Correct, strictly speaking it's recommended that any circuit over 1500 watt should be on its own circuitFrance and Germany do not run washing machines, dish washers, tumble dryers, water heaters off a radial circuit, but on their own dedicated supply, lots of other appliances have their own dedicated supply as well, so the potential of overloading the socket supply is reduced.
r. The implication for electrical circuits is thus also very clear. So what is the wisest course of action..... Hence the 16amp.socket circuit.
Yes, they were created together. But they belong together as they are interdependent.My comment was not directed at you, just an observation about how often the ring/radial topic comes up and how divisive it appears to be.
No, they were deliberately created together.
The UK used to have two common plugs, rated at 5A and 15A (and a further two uncommon at 2A and 30A) , each on a radial circuit. This is wasteful of wiring for a large number of plugs, and inevitably you will end up with the wrong one for your application.
So the IEE (as the IET was then) came up with a proposal post-WW2 to keep costs down, safety up, and allow a large number of sockets as they foresaw the growing need for electrical power.
Hence the idea of a "universal" plug for most applications, but with a selectable fuse rated for the appliance. Today you can get that easily in 3A, 5A and 13A but from suppliers like RS also 1A, 2A, 7A and 10A. With such a fuse you don't care (within reason) what the supplying feed is rated at, so the committee finally settled for a typical 30A fuse behind this (also ensuring total selectivity with a 13A fuse in the event of a fault).
Of course the modern 32A B-curve MCB fails on selectivity but that is a topic for another day (see many posts on garage/out-building supplies)!
It is convenient, but wasteful.
The lack of a fused plug means the appliance cable has to meet the disconnection ratings of the main supply. For a typical MCB in the 10-20A range the adiabatic limit requires 1mm cable. So even for a small power demand you are wasting copper simply to meet the supply characteristics instead of, say, 0.5mm and a 3A fuse.
And as you can't sensibly push this supply up due to the final flex issue, you might need several circuits instead of the one ring.
Yes, it works perfectly well and most EU countries, etc, are quite safe, but it is a waste of the Earth's resources in doing so!
Your point about the increase of appliances, is a valid one. The solution is also simple.As standard we always run in an extra 2.5. to utility/kitchen. Future proofing.
Yes, they were created together. But they belong together as they are interdependent.
Pc1966. If you were to stand in a room of (for arguments sake) Dutch electricians and present your argument as you have to me they would listen to you, realised you knew exactly what you were talking about, respected your point of view re. waiting earth's resources etc but would not be "converted" to the ring circuit. They don't have fused outlets or fused plugtops and it really is more convenient that way. They are happy to pay a little more (as, you see it) for that convenience. If you worked in their system for a little while you would feel the same.My comment was not directed at you, just an observation about how often the ring/radial topic comes up and how divisive it appears to be.
No, they were deliberately created together.
The UK used to have two common plugs, rated at 5A and 15A (and a further two uncommon at 2A and 30A) , each on a radial circuit. This is wasteful of wiring for a large number of plugs, and inevitably you will end up with the wrong one for your application.
So the IEE (as the IET was then) came up with a proposal post-WW2 to keep costs down, safety up, and allow a large number of sockets as they foresaw the growing need for electrical power.
Hence the idea of a "universal" plug for most applications, but with a selectable fuse rated for the appliance. Today you can get that easily in 3A, 5A and 13A but from suppliers like RS also 1A, 2A, 7A and 10A. With such a fuse you don't care (within reason) what the supplying feed is rated at, so the committee finally settled for a typical 30A fuse behind this (also ensuring total selectivity with a 13A fuse in the event of a fault).
Of course the modern 32A B-curve MCB fails on selectivity but that is a topic for another day (see many posts on garage/out-building supplies)!
It is convenient, but wasteful.
The lack of a fused plug means the appliance cable has to meet the disconnection ratings of the main supply. For a typical MCB in the 10-20A range the adiabatic limit requires 1mm cable. So even for a small power demand you are wasting copper simply to meet the supply characteristics instead of, say, 0.5mm and a 3A fuse.
And as you can't sensibly push this supply up due to the final flex issue, you might need several circuits instead of the one ring.
Yes, it works perfectly well and most EU countries, etc, are quite safe, but it is a waste of the Earth's resources in doing so!
The extra 2.5 we run in for, as "nicebutdim" said the likely possibility of increasing appliances in the future.What do you do with the extra 2.5?
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They are not interdependent, the fused plug is not dependant on a ring circuit.
The extra 2.5 we run in for, as "nicebutdim" said the likely possibility of increasing appliances in the future.
Pete and dave are clearly scrupulous in their application of regs etc. End of. However, regs must always be seen as a minimum standard. If possible, it's best to be ahead of the curve rather than behind it..We decided to downgrade to a 16 amp mcb for a number reasons. One, as you mentioned appliances are becoming increasingly more efficient. Seven or 8 years ago we either ran a 6mm to the utility to allow washing machine and drier etc to run simultaneously or 2 x 2.5 t& e, depending on the rating of appliances. In the most recent kitchen we did, the entire load of W. M. and Drier was 3.3 KW. That trend will almost certainly continue. General sockets circuits are no longer used for electric heating like they used to be. Down rating the supply does, nt save us any money but it dies "future proof" the installation regarding the installation of more insulation (which is the norm here).
Your point about the increase of appliances, is a valid one. The solution is also simple.As standard we always run in an extra 2.5. to utility/kitchen. Future proofing.
Yes. Unterminated and taped off in a JB, but obviously accessible. The utility is the location of choice.But what do you actually do with it? Do you leave it unteeminated somewhere or what?
I remember many years ago there was some discussion about the goal of an common EU-wide electrical socket. Which as you can see got nowhere. What was the most promising choice was the IEC "kettle" style of connector as it is polarised, in widespread use already, and available at 10A (but often only 5A!) so probably enough for the majority of applications.
Planning for the future is not an exact science. You may for instance never put in garden lights but running an SWA to the garden while the house is been built is much cheaper, more convenient and ascetically far more pleasing than doing it at a later stage. But these are all personal decisions where the homeowner is given the option. If they like gfine, if not, fine. We provide a, service at the end of the day.I get your thinking, but remain unconvinced that dropping derating from 20A to 16A in this way is a great means of future proofing. If I was building a new home I'd much rather have more current available at outlets than less - while it may not ever be required, it would surely be advantageous to have it readily available.
On the subject of running in additional circuits; I'm not generally in favour of the idea, unless they are intended for a specific requirement that is to be commissioned in the near future. In my parent's house, the only non-bodged electrical work since the initial introduction of electricity also included the installation of two additional rings and one lighting radial. That was 30 years ago and I wouldn't want to use any of it after three decades of being coiled up in a floor space, with intermittent rodent activity. I mention these additional circuits as I happened upon them a couple of years back - two were cut out and one was left in situ as it could be useful for pulling new cables in the future. In short, those additional circuits weren't a particularly great use of money or cable.
Planning for future needs is not an exact science of course. Sometimes it running in an extra, cable can be good insurance but as you state it can also be wasted. It's a choice at the end of the day.I get your thinking, but remain unconvinced that derating from 20A to 16A in this way is a great means of future proofing. If I was building a new home I'd much rather have more current available at outlets than less - while it may not ever be required, it would surely be advantageous to have it readily available.
On the subject of running in additional circuits; I'm not generally in favour of the idea, unless they are intended for a specific requirement that is to be commissioned in the near future. In my parent's house, the only non-bodged electrical work since the initial introduction of electricity also included the installation of two additional rings and one lighting radial. That was 30 years ago and I wouldn't want to use any of it after three decades of being coiled up in a floor space, with intermittent rodent activity. I mention these additional circuits as I happened upon them a couple of years back - two were cut out and one was left in situ as it could be useful for pulling new cables in the future. In short, those additional circuits weren't a particularly great use of money or cable.
Sorry for confusion. Thought I lost my first post, then it reappearedPlanning for the future is not an exact science. You may for instance never put in garden lights but running an SWA to the garden while the house is been built is much cheaper, more convenient and ascetically far more pleasing than doing it at a later stage. But these are all personal decisions where the homeowner is given the option. If they like gfine, if not, fine. We provide a, service at the end of the day.
Regarding the 2 5 t&e, its continuous current rating when covered in insulation drops to 19.5 amps. If installed in wavin it drops to 18.5 amps
Planning for future needs is not an exact science of course. Sometimes it running in an extra, cable can be good insurance but as you state it can also be wasted. It's a choice at the end of the day.
Regarding from 20 to 16amp circuits. You will see from the table that their is a significant difference in current carrying capacity between a surface clipped 2.5 and one embedded in insulation. Approx 8 amps. In fact the rating of a 2.5 t&e in insulation is 19.5 amps, thus under 20amps.Though marginal, this figure may still require other derating factors (like wavin pipe, 18.5 amps) and bunching (derating factor is 0.80), which is often inevitable in an attic.You can see why we feel much more comfortable with a 16amp mcb in installations likely to be insulated
Yes. Its often just history, is, nt it. Anyway if debating pro, s and con, s of rings /radials is our biggest problem, we must be in a good place.@Edmond Noonan The UK's post-WW2 situation was unusual as so much reconstruction was needed and not that many places actually had electricity outside of major conurbations, and so changing systems in use was practical and advantageous at that point. No one now is going to change the plug/socket type in use due to the massive headache it would cause! (I remember it was still common to see the round-pin outlets in to the 70s)
So really the ring/radial debate is limited to the UK and countries with a shared electrical background where both types are possible.
I remember many years ago there was some discussion about the goal of an common EU-wide electrical socket. Which as you can see got nowhere. What was the most promising choice was the IEC "kettle" style of connector as it is polarised, in widespread use already, and available at 10A (but often only 5A!) so probably enough for the majority of applications.
But then you get in to the details of local fuse/switch or not, and even the issue of shutters. The IEE was not willing to have open sockets and other standard bodies were not bothered as they never had shutters to keep kids from poking stuff in, etc.
Yes I do, and as you rightly state essentially I have no choice. I myself have pointed out how a very low impedance would be required in many circumstances (depending on the load) to limit the touch voltage to a safe level. However I still believe that an Earth electrode is better than no Earth electrode. I honestly feel that the IEE Wiring Regulations are at odds with the rest of the world on this, and there is a reasonable probability that they will change in due course.That's fine Risteard. Do you also still "support and endorse" the installation of a 4ft earth rod (as we are both required to install under Irish regs) but as has been demonstrated here on this forum by multiple sparks in multiple posts is actually less than useless?
As they say "First world problem"Yes. Its often just history, isnt it. Anyway if debating pro, s and con, s of rings /radials is our biggest problem, we must be in a good place.
Onwards and upwards
Yes. You made the valid point about the need for a very low impedence in a previous point. Agreed. That's, essential. But before we would recommend to other countries (UK for example) that they should install a 4ft rod can we explain clearly to them why? Its, been clearly established mathematically (here on this forum) that a 4ft rod is of no use as a, return path in the event of a broken neutral. Secondly, its been argued (mathematically) that the rod does, nt bring down the touch voltage during fault conditions. I would go one step further and argue (mathematically) that a 4ft rod will actually be a potential safety hazard under fault conditions. I would be happy (even reassured) to be proved wrong in that assumptionYes I do, and as you rightly state essentially I have no choice. I myself have pointed out how a very low impedance would be required in many circumstances (depending on the load) to limit the touch voltage to a safe level. However I still believe that an Earth electrode is better than no Earth electrode. I honestly feel that the IEE Wiring Regulations are at odds with the rest of the world on this, and there is a reasonable probability that they will change in due course.
But yes - we should ideally be striving for a much lower impedance connection, although this could mean substantially more work to achieve this.
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