crshears
Electrical
- Mar 23, 2013
- 1,881
Hello all,
For the background to this post see the thread at
Of particular interest from that thread was the very first response where itsmoked strongly suggested I check the polarities of the lamp sockets to see which ones had live shells as opposed to live centre buttons.
I finally was able to get a good start on this task with the assistance of a couple of helpers; what I've found is very discouraging, namely that the polarities are completely inconsistent, right down to the individual components within each branch circuit. At least all of the branch wiring is relatively modern Pyrotenax; unfortunately it was fished into the original conduit and boxes, many of which have been painted shut for years; correcting all of the polarities would therefore literally involve thousands of hours of work.
I'v been re-reading Transport Canada's Marine Safety Ship's Electrical Standards, also known as TP127E, as well as the Canadian Electrical Code, and if I'm interpreting these correctly, not only are ungrounded two-wire single phase distribution systems a recognized and acceptable standard type of vessel electricity distribution system, but the Canadian Electrical Code does not apply aboard ships registered with Transport Canada.
What is causing the issues aboard the old girl is that the existing wiring is tied into a 120/240VAC three-wire system with a solidly grounded neutral. Since the prospect of undertaking all that re-wiring is such a daunting task, and seeing how the interposition of an isolating transformer is still hanging fire, I am considering the installation of two separate single-phase isolating transformers, both with a 240VAC input. The first would be a unity bank with a standard three-wire 120/240V output, grounded neutral, and would be connected to the newer three-wire loads aboard the vessel, including the VFD that supplies the main engine turning gear; I'm estimating that a unit rated at ~50 kVA would do nicely for these loads. This transformer's 240V input winding would have a 200 amp breaker interposed in its supply circuit.
The second IT I'm contemplating using, if I can find such a beast, is one with a 2:1 voltage ratio, with either a single output winding or a pair of 120VAC output windings which could be parallelled; these would be used to supply all of the ship's original distribution boxes in an ungrounded configuration. Ground detection could be provided either by the old tried-and-true "two lamps in series across the supply with the midpoint grounded and look for one to go dim" method, or by a more modern detection system that would not suffer from the limitation of having a blind spot to two grounds of equal severity occurring on the live legs simultaneously.
If I'm reading the regulations correctly, this could be done in conformity with TP127E, one provision being that equally-rated Edison fuses would have to be used in both legs of all the branch circuits. I'm guesstimating that a transformer rated at ~30 kVA would be required to supply these loads. This transformer's 240V supply side would be protected with a 125 amp breaker.
Any thoughts as to what else needs to be considered along the way?
CR
"As iron sharpens iron, so one person sharpens another." [Proverbs 27:17, NIV]
For the background to this post see the thread at
Of particular interest from that thread was the very first response where itsmoked strongly suggested I check the polarities of the lamp sockets to see which ones had live shells as opposed to live centre buttons.
I finally was able to get a good start on this task with the assistance of a couple of helpers; what I've found is very discouraging, namely that the polarities are completely inconsistent, right down to the individual components within each branch circuit. At least all of the branch wiring is relatively modern Pyrotenax; unfortunately it was fished into the original conduit and boxes, many of which have been painted shut for years; correcting all of the polarities would therefore literally involve thousands of hours of work.
I'v been re-reading Transport Canada's Marine Safety Ship's Electrical Standards, also known as TP127E, as well as the Canadian Electrical Code, and if I'm interpreting these correctly, not only are ungrounded two-wire single phase distribution systems a recognized and acceptable standard type of vessel electricity distribution system, but the Canadian Electrical Code does not apply aboard ships registered with Transport Canada.
What is causing the issues aboard the old girl is that the existing wiring is tied into a 120/240VAC three-wire system with a solidly grounded neutral. Since the prospect of undertaking all that re-wiring is such a daunting task, and seeing how the interposition of an isolating transformer is still hanging fire, I am considering the installation of two separate single-phase isolating transformers, both with a 240VAC input. The first would be a unity bank with a standard three-wire 120/240V output, grounded neutral, and would be connected to the newer three-wire loads aboard the vessel, including the VFD that supplies the main engine turning gear; I'm estimating that a unit rated at ~50 kVA would do nicely for these loads. This transformer's 240V input winding would have a 200 amp breaker interposed in its supply circuit.
The second IT I'm contemplating using, if I can find such a beast, is one with a 2:1 voltage ratio, with either a single output winding or a pair of 120VAC output windings which could be parallelled; these would be used to supply all of the ship's original distribution boxes in an ungrounded configuration. Ground detection could be provided either by the old tried-and-true "two lamps in series across the supply with the midpoint grounded and look for one to go dim" method, or by a more modern detection system that would not suffer from the limitation of having a blind spot to two grounds of equal severity occurring on the live legs simultaneously.
If I'm reading the regulations correctly, this could be done in conformity with TP127E, one provision being that equally-rated Edison fuses would have to be used in both legs of all the branch circuits. I'm guesstimating that a transformer rated at ~30 kVA would be required to supply these loads. This transformer's 240V supply side would be protected with a 125 amp breaker.
Any thoughts as to what else needs to be considered along the way?
CR
"As iron sharpens iron, so one person sharpens another." [Proverbs 27:17, NIV]
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