Discuss Current flow in neutral but no voltage ? in the UK Electrical Forum area at ElectriciansForums.net
As @Avo Mk8 says power = current x voltage and as I & V both reverse each cycle of AC then the power is flowing in the same direction. Also while the L & N have equal but opposite I, they also have opposite V (depending on where you reference it) so power flows in the same direction.I think to generate that frequency a lot more physical training would need to be done by myself !! Most of the research I’ve conducted on my own has been through speaking to work colleagues, reading some text books and looking into forums e.g. this one. I don’t know if I’m just really missing a really simple point I’m just struggling to see the points a little bit still. I’ve been having a look at some diagrams and I feel I’m getting there a little bit.
Yes, typically in the UK the HV feed to a substation has only 3 line conductors, L1, L2, and L3 from a 3-phase supply. The primary windings are normally delta-connected to these 3 line feeds. Dropping N saves a 4th conductor which is a significant cost and as you say, is not actually needed here!Cables run from the Generator to a step down transformer.
Am I right in saying from the generator to the transformers we don’t need a neutral ? Because as one phase is at a maximum positive voltage, the other two phases would be at half that, but negative voltage ? Therefore it’s all balanced so you don’t need anymore cables.
Yes, at the secondary (LV side) in the UK it is almost always a star-connection with the centre point the N which is then earthed via some arrangement of earth electrodes.If that’s correct then this is where I become stuck.
Then from that transformer a single phase comes to a house. We need a complete circuit in the house so we introduce a neutral at the transformer (is this the basis of a star connection) off of this main neutral cable in the road we attach a main neutral that can come into the house ? (not including anything to do with earths or cpcs )
Okay I’m feeling like I’ve got abit more knowledge than yesterday now, but I have another question now ?As @Avo Mk8 says power = current x voltage and as I & V both reverse each cycle of AC then the power is flowing in the same direction. Also while the L & N have equal but opposite I, they also have opposite V (depending on where you reference it) so power flows in the same direction.
Now you might argue if it is 230V & 0V then all power is in the L, which is reasonable enough, but if centre-tapped (as the typical 110V yellow supplies on building sites do for safety, so 55V-0V-55V) then you have half power on one, half on the other. But however you chose to reference 0V you get the same total power for L+N, so the definition of N as 0V (give or take a volt or so drop along the cable) taking power as in the L is adequate..
Yes, typically in the UK the HV feed to a substation has only 3 line conductors, L1, L2, and L3 from a 3-phase supply. The primary windings are normally delta-connected to these 3 line feeds. Dropping N saves a 4th conductor which is a significant cost and as you say, is not actually needed here!
At the sending end (generator, or maybe a higher-voltage substation) then there is a neutral point for the 3-phase that is earthed so all lines are at known potentials w.r.t. the true Earth. A complication in the HV world is often there is an added impedance in the N earthing designed to limit the magnitude of any fault current to a value that is easier to handle, while the protection relay ponders if the fault is temporary or needs disconnection.
Yes, at the secondary (LV side) in the UK it is almost always a star-connection with the centre point the N which is then earthed via some arrangement of earth electrodes.
To save on cable, it is now common to have a combined N & E in the main cable (protective earth neutral = PEN), and multiple earth electrodes attached along its length (sometimes the lead sheath of old cables that have been superseded but remain buried, etc) to help a little with reliability & safety (protective multiple earthing = PME). This is known as "TN-C" as N & E are common (the 'C') part. For each house the N+E is taken along with one of the L and fed to the house, at that point (usually DNO cutout) the N and E for the installation are separated out. As N and E are now separated, it becomes TN-C-S
In the past there would be separate N & E from the substation, with the E often the cable steel armour or lead anti-corrosion sheath, but for cost saving that is not usually done in public networks (where different rules apply and TN-C is permitted) but it the usual way with private substations where the usual wiring regs apply that prohibit TN-C for safety reasons.
And yes, the safety aspect of an open PEN is a real issue today and has been forced back in to debate with electric cars being attached to that network and folks likely washing them, etc!
Okay I’m feeling like I’ve got abit more knowledge than yesterday now, but I have another question now ?
So during the negative portion of the sine wave, voltage is moving from the neutral through the load to the line ? If this is the case would you get an electric shock from touching a neutral ? For example if you turn the MCB off to do maintenance to a socket. The socket is safely isolated but if it’s still in the neutral bar and the current is alternating into the bar wouldn’t there be a risk of electric shock ?
Thankyou for your response Electrochem, is there any other way to explain this as it’s gone over my head abit,Almost there but still not quite.
Rather than thinking of the negative half of the sine wave as 'putting voltage on the neutral', what actually happens is that voltage is still on the active wire, but now it's negative to earth reference rather than positive. The neutral stays at 0V as it's bonded to earth reference.
I think so. So the generator in a simple form has a large magnet in the middle rotating, creating a push pull (voltage) positive negative force.Think of the basic generator you described at the beginning of your previous thread, except it is now generating 230V. You connect one wire to an earth stake and also to one connection of a light bulb. The other generator wire connects to the other bulb connection (call that 'live'). This somewhat mimics power coming into a house.
You are standing on the earth. You touch the wire that is connected to earth. Why would you get a shock?
This is what is happening on the 'live' wire - does this help?
(PS I may have confused things with a red line - that's just supposed to represent the zero volt axis of the 'live' waveform)
View attachment 112668
I think you are getting confused between the voltage on a conductor, and current flowing through it, or the relative dangers thereof?What I am struggling to grasp still is why the electricity upto this transformer is alternating.
But then when it comes into the house only the line side is live.
It doesn't matter whether we talk about AC or DC. Your concern relates to what happens when you connect one side of the electricity supply to ground/ earth/ 0V/ and you.Using the second diagram of the transformer I’m struggling to understand why if I grabbed hold of the neutral I wouldn’t get a shock as by an alternating current concept for half the time the current is flowing through this cable.
YesThe only way I can make this make sense in my head at the moment is - If I’m holding the neutral. The current is attempting to flow through me through the ground and back to the transformer. And because the neutral is connected to the earth. I am effectively at the same potential difference to the ground i.e, if the neutral cable Im holding is either pushing or pulling the electrons, because I am connected to the ground, which is connected back to the neutral.
The pushing and pulling of electrons is all about current. There will be/ can be current. You not getting a shock is all about voltage. There is no voltage on the Neutral.There can be no push or pull effect because, back at the transformer neutral and ground will always be the same charge either positive or negative, so there is no electron flow.
We don't mind if you keep asking if you don't understand. And I'm sorry if my attempts to explain don't resonate with you - I'm sure someone will be along to help!I sort of think I have explained to myself my conundrum I initially posted but I’m posting this anyway to see if I can get some confirmation from you guys.
Thankyou in advance
Right I think Im getting there, so current flow is happening throughout. However in a simple analogy the pushing and pulling action (voltage) is only pushing and pulling on one side (The phase/ line conductor side). So current flows back and forth throughout the circuit from the generator through the transformers into a domestic dwelling/ installation and then all the way back.I think you are getting confused between the voltage on a conductor, and current flowing through it, or the relative dangers thereof?
It doesn't matter whether we talk about AC or DC. Your concern relates to what happens when you connect one side of the electricity supply to ground/ earth/ 0V/ and you.
With one side of the supply grounded (eg Neutral) there is a DC or AC voltage on the other supply wire (as illustrated by the sine wave I posted)
The fact there is current going through the neutral, many Amps or whatever, won't give you a shock. The neutral is at the same potential as you. Even if an AC supply, it's not alternating, it is at zero potential all the time (before considering the real world of resistance of cables and connections). It's the live wire that's wanging up and down in voltage, but not the neutral - it can't - it's tied to ground/0V!
Yes
The pushing and pulling of electrons is all about current. There will be/ can be current. You not getting a shock is all about voltage. There is no voltage on the Neutral.
We don't mind if you keep asking if you don't understand. And I'm sorry if my attempts to explain don't resonate with you - I'm sure someone will be along to help!
Yes the voltage (tension) is only on the live side as it were. The pulling and pushing distance moved was the current. Both ends of the rope move the same. The current in L and N are the same.Right I think Im getting there, so current flow is happening throughout. However in a simple analogy the pushing and pulling action (voltage) is only pushing and pulling on one side (The phase/ line conductor side).
yesSo current flows back and forth throughout the circuit from the generator through the transformers into a domestic dwelling/ installation and then all the way back.
Yes. The ground is a conductor, so your imaginary cable is 'real', but with some resistance (sorry thats probably a complication!)Neutral and Earth are bonded/ linked together at the same point in the centre of the star connection transformer. So if I was to touch a neutral, (stay with this bit) I’ve almost got an imaginary cable attached to my feet which runs back underground to the transformer, but this is linked at the same point the neutral is linked at. This imaginary cable being a route through the earth.
I think I follow, yes. I find it easier to think in terms of current flow - just call it current - rather than worrying about electrons pushing or pulling.Because I’m creating a circuit that back at the transformer end isn’t linked at two seperate points/ opposite ends of the transformer there is no potential difference as there can be no push or pull effect of electrons. Therefore no electric shock.
YesWhere as if I am touching the phase wire I am completing a circuit from the phase through the earth which attaches to the opposite end of the transformer winding.
Since the phase side is connected to the opposite end of the neutral/earth there is a potential difference and work can now be done. I.e. the electrons can move back and forth - therefore electric shock/ electron flow
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