PSG-1 said:
If anyone is curious about whether or not they have an adequate system....here's how you find out.
Measure the length, width, and depth of the inside of your boat, then calculate cubic feet.
Then, determine the number of gallons per cubic ft. (I forget what it is) and multiply by the number you came up with from your boat's dimensions. This is the amount of gallons of water your boat could hold after being swamped.
Then determine your bilge pump's GPH (don't forget to account for pressure/volume loss from pumping head height....roughy 1 ft for a johnboat)
I've found that things that look good on paper don't always work in real life, and there's no way in hell I would depend on an electric motor to keep my boat afloat! Motors fail and batteries drain and die.
The best way to find out what your boat is going to do if swamped or the hull is breached is to try it out in real life.
Take your boat out to the shallows on a warm summer day when the water is warm and pull the plug, then if you want to check your bilge pump turn it on and see if it'll keep up with the water coming in... but a bilge pump should only be secondary to the correct amount of floatation foam in your boat.
I recommend pulling the plug in your boat and don't run the bilge, let the boat fill with water until it stops taking on water and see how much water your boat will take on until the foam takes over. If you think your boat is taking on too much water or your get scared you can abort the test and put the plug back in. Then run your bilge to empty the boat and take it home and figure out where and how you can add more floatation foam to your boat to keep it afloat correctly.
I figure most people won't do this because they don't trust their boat, and if you don't trust it now... how are you going to trust it in an emergency.
The smart folks will do this test on their boat because they'll want to know just exactly what will happen should an emergency ever arise.
