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None of the electricity pylons (towers) or poles I have surveyed (in UK) have notices saying what the voltage of the line is. Is it possible to determine the voltage being used from the shape or size of the pylons, poles or cable insulators? If so are pictures or a reference source available? |
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Did you see the recommendations on Key:power?
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I recommend not worrying about it - there are plenty of more useful things to map than what voltage a power cable is. Is it really necessary to record the voltages? The result of doing so is to have "CAVIDOTTO (400000 VOLT)" written large across the complete width of the screen of my Garmin GPS60 as I approach powerlines. A bit offputting when trying to navigate.
(18 Sep '11, 15:31)
chrisboucher
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I would only expect it to do that if somebody has put the voltage in the name, and even then you would have to chosen to include the names of power lines (an odd thing to do) when the Garmin map was generated. I suspect that your problem is really with the author the style sheet used to render your Garmin maps.
(18 Sep '11, 15:34)
TomH ♦♦
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First, remember that you don't have to record the voltage for power lines. You can omit any information from OpenStreetMap that is too difficult/dangerous to collect. However, if you do want to record the information, you can tell the voltage by the type of pole/pylon used. Search engines is your friend in identifying which is which. |
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Usually it is true that higher voltages have bigger/higher towers, but concrete sizes and shapes are very country specific and even within one country various types are used for the same voltage (eg. straight, direction change...). I have no idea how they look in UK. |
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I wouldn't rely absolutely on the following as it is recalled from college a fair while ago! In the UK the National Grid operates at three voltages: 132Kv, 275Kv and 400Kv. Distribution at higher voltages is more prone to losses and problems caused by corona discharge. To reduce this, the effective diameter of the individual transmission cable is increased. This is achieved by adding more 'wires' to create a bundle conductor. 132Kv is usually distributed using single strand cables. 220Kv use pairs and 400Kv uses quads. This is only relevant on the National Grid using pylon towers and is a guide rather than an absolute truth! (And, yes, I'm aware of some transmission lines using triples - I've no idea when these are used!) I wouldn't tag using the above info. |
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try looking at the insulators, the higher the voltage the larger the number of insulators between the tower and the conductor. The insulators are the glass dishes hanging from the tower crossarm points and connecting to the conductor robin |
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Hi, roughly estimating you can count 100kV for every meter of insulator. But dont try to climb up and measure it ;-) But many power lines may hang on older insulators with the ability for more voltage (not the other way round). To be sure, you should have a deeper look at the lines just outside a sub station. Lines of the same voltage come together at the same part of the sub station, connected by busbars. If a sub station is fed by several voltages, you find a transformer between the parts of that sub station. A 110kV-to-medium-voltage transformer has the size of a garage, while 220/110kV and 380/110kV are quiet larger. ajoessen |
I don't worry about recording what I don't know. I asked the question as I didn't know how the voltage information shown for some lines in the UK on http://www.itoworld.com/product/data/ito_map/main?view=4 was collected.