Hi All,
So over the years I have read many a diatribe by those professing that; "The anchor is not what holds the boat it is the chain and the anchor is not important." I personally find this type of information a little dangerous but like anything you can't always believe what you read on the net...
EDIT: Last week, on another forum, a poster said exactly this in a discussion around swivels:
The results are fairly straight forward and just about what I had expected it to show, that chain, even lots of it, really adds little in the way of actually holding you in one place unless it is quite calm, and it may also hinder a proper set if you're not diligent in backing down on the hook..
For the experiment I used our 5/16" 185' long all chain rode. There was a total of 187' of rode for a bow chock to bottom depth of 24.5 feet, the extra two feet was the snubber between the load cell and the chain. This equates to about 7.6:1 scope. Most "all chain" users usually anchor with less than 5:1 and more often 4:1 or 3:1. This would mean less resistance to dragging. The average drag of approx 160' of 5/16" chain through a mud bottom was about 150 pounds. For context a 16" three bladed fixed prop at 4 knots is over 50 pounds of drag so 160' of chain dragging through a mud bottom is only 100 pounds more drag than a locked three bladed prop...
I did some math based on the posters statements also to make sure it was a fair comparison;
What he was basically saying is that 70' of 1/2" chain held a 65' and 65,000 pound vessel in winds up to 15 knots for a week with no mention of said chain wrapping around coral or a rock.
If the "pile" never moved, which would have been the remainder of the 150' minus 20' water depth, minus a bow height of 8' (extrapolated based on boat description), unless he used a snubber, but why would he with just chain, then one could surmise the pile could have been 52' of chain never even tugged on. 150'-70'=80' and then 80'-20'=60' and then 60'-8'=52'
This was the description of the vessel:
Our 160' of 5/16" BBB, what was actually dragging on the bottom, weighs 192 pounds in total @ 1.2 pounds per foot (ACCO 5/16 BBB). If I take his post at face value, as written, 70' of 1/2" ACCO BBB chain weighs 189 pounds if that is what his chain actually was, if not, a few pounds +/- is possible.
The drag resistance with 70' of chain is clearly going to be less than our 160' because he was lacking 90' of friction resistance. His chain, if BBB type, would have also likely weighed a couple pounds less than our 160' (only counting the part actually sitting on the bottom) of 5/16".
To put it in perspective our 36 footer pulls at her mooring pendants with peaks of 220+ pounds in just 17-19 knots of wind in pretty flat water.
One thing that is a good take away is that if you use all chain you DO need to back down HARD on your anchor to get it set otherwise in calm conditions you may just be laying to the chain, and when the wind picks up, your anchor may just skate along the bottom until you're on the rocks.
As a point of reference our 44Hp diesel with three blade fixed prop can apply about 500-700 pounds of reverse thrust at 80% throttle. This is how we set our anchor at 80% to 100% reverse thrust. When you add the inertia of the boat moving backwards and the boat coming to a full stop when the anchor sets the snatching loads are well in excess of 1000 + pounds when we set the anchor. Using normal scopes for chain, the chain drag is about 9/10th, of what our power setting loads are.
I personally find it a tad difficult to believe that anyone anchored a 65' and 65,000 pound vessel for a week in winds up to 15 knots with only 150' of 1/2" chain in 20' of water and with winds to 15 knots...... . Remember our boat is only about 19-20k loaded, 36' and develops over 200 pounds of load on the rode in just 17-19 knots. This is a FAR cry from a 65' & 65,000 pound vessel that has considerably higher windage.
Approx 160' of chain dragging at 150 pounds +/-..
Our boat in 17-19 knots:
So over the years I have read many a diatribe by those professing that; "The anchor is not what holds the boat it is the chain and the anchor is not important." I personally find this type of information a little dangerous but like anything you can't always believe what you read on the net...
EDIT: Last week, on another forum, a poster said exactly this in a discussion around swivels:
I light of that I made a video that is rather long. It's about 10 minutes, because it is unedited. I wanted to leave no room for accusations of "tampering" by the "chain holds your boat, anchor not important" crowd.... Please fast forward through the longish parts like playing out the chain.Guest on Another Sailing Forum said:
The results are fairly straight forward and just about what I had expected it to show, that chain, even lots of it, really adds little in the way of actually holding you in one place unless it is quite calm, and it may also hinder a proper set if you're not diligent in backing down on the hook..
For the experiment I used our 5/16" 185' long all chain rode. There was a total of 187' of rode for a bow chock to bottom depth of 24.5 feet, the extra two feet was the snubber between the load cell and the chain. This equates to about 7.6:1 scope. Most "all chain" users usually anchor with less than 5:1 and more often 4:1 or 3:1. This would mean less resistance to dragging. The average drag of approx 160' of 5/16" chain through a mud bottom was about 150 pounds. For context a 16" three bladed fixed prop at 4 knots is over 50 pounds of drag so 160' of chain dragging through a mud bottom is only 100 pounds more drag than a locked three bladed prop...
I did some math based on the posters statements also to make sure it was a fair comparison;
What he was basically saying is that 70' of 1/2" chain held a 65' and 65,000 pound vessel in winds up to 15 knots for a week with no mention of said chain wrapping around coral or a rock.
If the "pile" never moved, which would have been the remainder of the 150' minus 20' water depth, minus a bow height of 8' (extrapolated based on boat description), unless he used a snubber, but why would he with just chain, then one could surmise the pile could have been 52' of chain never even tugged on. 150'-70'=80' and then 80'-20'=60' and then 60'-8'=52'
This was the description of the vessel:
Guest on Another Sailing Forum said:
Our 160' of 5/16" BBB, what was actually dragging on the bottom, weighs 192 pounds in total @ 1.2 pounds per foot (ACCO 5/16 BBB). If I take his post at face value, as written, 70' of 1/2" ACCO BBB chain weighs 189 pounds if that is what his chain actually was, if not, a few pounds +/- is possible.
The drag resistance with 70' of chain is clearly going to be less than our 160' because he was lacking 90' of friction resistance. His chain, if BBB type, would have also likely weighed a couple pounds less than our 160' (only counting the part actually sitting on the bottom) of 5/16".
To put it in perspective our 36 footer pulls at her mooring pendants with peaks of 220+ pounds in just 17-19 knots of wind in pretty flat water.
One thing that is a good take away is that if you use all chain you DO need to back down HARD on your anchor to get it set otherwise in calm conditions you may just be laying to the chain, and when the wind picks up, your anchor may just skate along the bottom until you're on the rocks.
As a point of reference our 44Hp diesel with three blade fixed prop can apply about 500-700 pounds of reverse thrust at 80% throttle. This is how we set our anchor at 80% to 100% reverse thrust. When you add the inertia of the boat moving backwards and the boat coming to a full stop when the anchor sets the snatching loads are well in excess of 1000 + pounds when we set the anchor. Using normal scopes for chain, the chain drag is about 9/10th, of what our power setting loads are.
I personally find it a tad difficult to believe that anyone anchored a 65' and 65,000 pound vessel for a week in winds up to 15 knots with only 150' of 1/2" chain in 20' of water and with winds to 15 knots...... . Remember our boat is only about 19-20k loaded, 36' and develops over 200 pounds of load on the rode in just 17-19 knots. This is a FAR cry from a 65' & 65,000 pound vessel that has considerably higher windage.
Approx 160' of chain dragging at 150 pounds +/-..
Our boat in 17-19 knots:
