Difference between revisions of "User:Vincecate/Models/SparBuoy"
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==Model details== | ==Model details== | ||
− | This is made from a 10 foot long piece of 2-inch diameter schedule-40 PVC pipe. The bottom has a cap and a 5 lbs steel weight on it. The top has a "T" fitting that I cut off to make a flat thing I could attach stuff to. On top of this is a 2.5 lb steel weight and a cup with water and coloring in it. I have a small balloon inside the T to close off the pipe unless I want to put water in or take it out to adjust the ballast. I estimate | + | This is made from a 10 foot long piece of 2-inch diameter schedule-40 PVC pipe. The bottom has a cap and a 5 lbs steel weight on it. The top has a "T" fitting that I cut off to make a flat thing I could attach stuff to. On top of this is a 2.5 lb steel weight and a cup with water and coloring in it. I have a small balloon inside the T to close off the pipe unless I want to put water in or take it out to adjust the ballast. I estimate between 1 and 3 lbs of water ballast is good. |
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+ | ==July 26, 2008== | ||
+ | |||
+ | <youtube v="Sgll7RjzDoc" /> | ||
+ | |||
+ | I took my 10 foot Spar Buoy model to "Sandy Ground" harbor which has water deep enough for this model. The problem was the waves were unusually small, around 3 inches. This is around 6 feet for full scale, which is a common sized wave in the ocean around here. The wind was typical for Anguilla, like 15 to 20 MPH, so scaled up this is 75 to 100 MPH simulated wind. The model leans downwind significantly with just a cup on top. The pipe is 2 inches wide, or scaled up 50 inches in real size. The cup is around the same width but a real house would be much wider. So I suspect that a scale house on this model would catch so much wind that it would tilt too much to be safe. I think this is interesting and may test it. If we are able to always avoid hurricanes or big storms using migration this may not be a show stopper for the spar buoy, but it seems worth understanding. | ||
+ | |||
+ | This model also show [[heave]] trouble. The individual 3-inch waves don't tip the model. There were some very small swells that came in at times and might have contributed to the heave. | ||
==July 27, 2008== | ==July 27, 2008== | ||
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− | + | <youtube v="YRCAehPsNRA" /> | |
+ | |||
+ | Took the model to Shoal Bay today which had waves of around 8 inches, bigger than yesterday's waves. With fins on it just took like 3 minutes to get past the reef to deep water (from where I parked by the beach) and about 7 minutes to get back (drifted downwind some). This is the beach closest to my house. My office is along the ridge behind the big group of palm trees. | ||
− | + | The wind, leaning, and heave were about like yesterday. | |
==Moving through water== | ==Moving through water== | ||
− | A related issue is pulling this through the water. To move a full scale one at 1 MPH is like moving a 1:25 scale model at 1/5 MPH. Moving at this speed without tipping it way over seem to require not just pulling at the top, but maybe half way down. With fins on my feet and pulling on the top of the model I can pull this through the water so fast that it lays nearly on its side. | + | A related issue is pulling this through the water. To move a full scale one at 1 MPH is like moving a 1:25 scale model at 1/5 MPH. Moving at this speed without tipping it way over seem to require not just pulling at the top, but maybe half way down. With fins on my feet and pulling on the top of the model I can pull this through the water so fast that it lays nearly on its side. |
+ | |||
+ | ==Still to test with model== | ||
+ | |||
+ | * Measure the force needed to pull the model at 1/5 MPH while vertical. | ||
+ | * See how much the model leans on a 5 MPH wind day with a scaled house on top. | ||
+ | * Put on something to reduce the heave (maybe strap 4 short pieces of PVC pipe at 90 degrees to main spar at the bottom). | ||
[[Image:Pict0001.resized.jpg]] | [[Image:Pict0001.resized.jpg]] |
Latest revision as of 07:24, 31 August 2008
Contents
Model details
This is made from a 10 foot long piece of 2-inch diameter schedule-40 PVC pipe. The bottom has a cap and a 5 lbs steel weight on it. The top has a "T" fitting that I cut off to make a flat thing I could attach stuff to. On top of this is a 2.5 lb steel weight and a cup with water and coloring in it. I have a small balloon inside the T to close off the pipe unless I want to put water in or take it out to adjust the ballast. I estimate between 1 and 3 lbs of water ballast is good.
July 26, 2008
<youtube v="Sgll7RjzDoc" />
I took my 10 foot Spar Buoy model to "Sandy Ground" harbor which has water deep enough for this model. The problem was the waves were unusually small, around 3 inches. This is around 6 feet for full scale, which is a common sized wave in the ocean around here. The wind was typical for Anguilla, like 15 to 20 MPH, so scaled up this is 75 to 100 MPH simulated wind. The model leans downwind significantly with just a cup on top. The pipe is 2 inches wide, or scaled up 50 inches in real size. The cup is around the same width but a real house would be much wider. So I suspect that a scale house on this model would catch so much wind that it would tilt too much to be safe. I think this is interesting and may test it. If we are able to always avoid hurricanes or big storms using migration this may not be a show stopper for the spar buoy, but it seems worth understanding.
This model also show heave trouble. The individual 3-inch waves don't tip the model. There were some very small swells that came in at times and might have contributed to the heave.
July 27, 2008
<youtube v="YRCAehPsNRA" />
Took the model to Shoal Bay today which had waves of around 8 inches, bigger than yesterday's waves. With fins on it just took like 3 minutes to get past the reef to deep water (from where I parked by the beach) and about 7 minutes to get back (drifted downwind some). This is the beach closest to my house. My office is along the ridge behind the big group of palm trees.
The wind, leaning, and heave were about like yesterday.
Moving through water
A related issue is pulling this through the water. To move a full scale one at 1 MPH is like moving a 1:25 scale model at 1/5 MPH. Moving at this speed without tipping it way over seem to require not just pulling at the top, but maybe half way down. With fins on my feet and pulling on the top of the model I can pull this through the water so fast that it lays nearly on its side.
Still to test with model
- Measure the force needed to pull the model at 1/5 MPH while vertical.
- See how much the model leans on a 5 MPH wind day with a scaled house on top.
- Put on something to reduce the heave (maybe strap 4 short pieces of PVC pipe at 90 degrees to main spar at the bottom).