Hi all,
Sorry to bother you again but I have an inquiry to make and confirm that I am correct in my advise I have given.
This is what I wrote last night but lost it in the sending.
I have just completed a full installation to a new build, in the form of a granny annexe. The main house is a 5 bed large house and has a 15 way C/U and 100a supply cut out. Two showers, 32a and 40a, cooker 32a, various 16a radials for power and various 6a circuits for lights to main house and out buildings (stables, sheds and caravan pitch)
The new build annexe electrics that I designed and installed has a 40a shower, 32a cooker radial, 32a kitchen ring, 20a radial up, 20a radial down, 6a lights up and down and 6a smoke/heat non RCD. This is a one bed two story with on suit. Front room, utility and kitchen. I designed this with the understanding that more power was being applied for through supplier.
Basically it is two houses working independently as you would expect. The mother-in-law is able bodied and works for a living.
By applying diversity, I worked out the main house to be working at its max so have not touched that side. Diversity for the annexe, I worked out to be 120a. 40 for the shower, 25 for the cooker, 32 for the first largest power circuit washing machine, tumble dryer, dishwasher, 40% of the rating for the two radials each and 66% of all the lights @100w each.
The supplier has confirmed (E-on), 17kva to the main house. A = 17x 1000/Uo. A = 70.53. Overhead cables rated at 100a, meter at 100a meter tails 25mm2 at 114a max.
I told the builder and the customer that there would be too much demand if the tails were split to supply both house and annexe and could overload the tails, meter, and supply cables. The only option is to apply for either an extra phase to supply the annexe or a separate meter and supply to the annexe. The mains supply is 25m away from the new build annexe C/U and the volt drop over this distance alone would require swa above 25mm2. 120ax25mx1.80=5.4V. This is just below the 6.9V, 3% for lighting before it gets to annexe CU which complies with 7671 (would have gone 35mm2). I am happy with my calculations and advise. I have been waiting for the extra phase to be supplied so I can live test and cert. The builder and customer have asked a 3rd party for a second opinion (as my advice was expensive) (who can't self-cert)). They have split the tails and run a cable to the annexe. This has been done by splitting the tails to a two way CU, 100a/30mA DP main switch and 63a type C MCB with 16mm2 T&E over a 25m cable run in trunking and clipped direct through the roof. (Tidy job) I have refused to complete the live tests now as I can only cert my own work and told them to go through LABC as full plans were deposited.
Calculations are:
16mm2 Ref Method B 69a
Design current of installation 120a (max demand with diversity)
Volt drop = 120aX25mX2.8 = 8.4V
This does not comply with 6.9V @ 3% of 230V for lighting before it gets to CU.
As human life is more important than cost, my thoughts are as follows:
1. Do you think I am scare mongering?
2. Am I just not getting it?
3. Only the cpc of the 16mm2 T&E has been used for the conductor.
4. Overhead cables (100a), splitter box (100a) meter (100a) tails (114a) overload with both installations running at the same time.
Yes it is long winded but needed to get it all down for opinion.
Kind regards
Jackhawk
