small system grounding question

Re: small system grounding question

This was interesting. Did a little searching, came across two different possibilities for you to check.

One involves grounding in a rocky environment, which would require that you do some rock boring to get the grounds in.

The second one, which might better suit your needs, involves the grounding of ships at sea. From your description, being on a rock island in the middle of a lake essentially makes you like a ship at sea. The same grounding procedures used for a boat should work for your setup. This Yahoo search will provide more info.

Must be pretty cool living on your own island in a lake.

Re: small system grounding question

Tony,
Lovely looking palace you have there...but where are the panels? Are you maybe a beta testing site for Nanosolar...some kind of shingle, siding or fake pine needle thin film solar?:p

How close to the pilings has the lake ice been shoved up before? Must be one of those little worries rec property people have (i don't have those worries, sniff sniff sniffle).

Ralph

Re: small system grounding question

icarus wrote: »

I'm fairly confident that the gensets, and the inverters are safe (for protection from short circuit and shock) but the lightning question is now unclear. Any and all opinions would be appreciated.

Lighting protection will * HELP * prevent your house from much structural damage (fire)

It will do little to prevent electronics from being blown out.

You have a tough grounding situation. Your best bet may be to stick a lighting rod in a couple of trees around your house, and each tree/rod has it's own heavy steel or aluminum ground wire, as short as possible, not going thru your house, to the lake. You want to attract and divert away from your house/electronics.

Sorry.

More info is at the http://tech.groups.yahoo.com/group/LightningProtection Group.

(1)
Those who are interested in obtaining a clear explanation about the
function of lightning rods, please download the Powerpoint presentation
prepared by Dr. William Rison of New Mexico Tech's Langmuir Laboratory in
New Mexico, USA.

http://tinyurl.com/ynkjcs


(2)
message excerpt:
A message titled: "Air Terminals versus Surge Arresters" was posted on January
14, 2008. As stated in that message, "air terminals and surge arresters serve
different functions and promoting one of them has no implications regarding the
need for the other."

In the case under consideration, the $15,000 loss to the electric and electronic
systems of the subject house arose from the lack of surge protection and it was
caused by a nearby lightning strike. The owner wanted to avoid recurrence of
such an event and specifically spoke of his concern regarding his plasma TV.
Hence he was advised to apply surge protection. Providing a Franklin rod system
too would be a good idea. I personally would install such a system if I lived
in a place like Florida where the keraunic level is high. However, it is up to
the owner to decide whether he is willing to pay for both surge protection and a
Franklin rod system.

Assuming that the house was equipped with a system of Franklin rods, the
termination point of the nearby stroke would not have changed. This is because
the attraction zone of a house would not materially increase by installing
Franklin rods having a typical height of within 2 ft (0.6 m). For the same
reason, the frequency of lightning strikes to a house would not materially
increase by providing protection against direct lightning strokes.

Regarding the comments of Mr. Shewmaker, there is no evidence in the subject
case that the damage resulted from diversion of lightning current into the
underground cable(s). This, however, may have been a secondary contributing
factor. Induction in the wiring of the house due to electromagnetic coupling to
the lightning channel is the most likely cause. By the way, distribution lines
operating at voltages up to 35 kV often experience flashovers due to induction
from nearby strokes. Hence the effects of induction in general are well knwon.
Each case differs, however, depending on the related geometrical parameters.

In case of commercial and industrial buildings, it would be in order to provide
the IEC three-stage coordinated protection and also take into consideration the
ground potential rise.

** Such provisions and related studies, however, are
usually beyond the budget of the average home owner. **

Re: small system grounding question

if you want to increase the contact area in the water that would be good to do, but as i said, you have a better ground system than most people do already.
as to lightning hits, florida is #1, but pa is #2. to any with halfbaked grounding systems you should be aware that that could be worse than no ground at all. this is especially true when there is a high resistance (like corrosion) or a break in the lead going to ground as this does not allow the air to predischarge that causes a higher attraction of a strike, but lessens this when allowed to discharge. as in the case of icarus this could be like the ice moving or breaking the wire and a buildup of charges can then occur increasing the odds of a strike.

Re: small system grounding question

icarus wrote: »

Here is a question for you: If I run the wire out into deep water, clamp it to a ground rod, and bury it in the rocks on the lake bottom, would that be an improvement?

Tony

I think that once you get about 15 feet of wire into the lake, that's about as good as you can expect. Buried under sand won't help, but maybe an anchor chain would work, and stay below the ice.