The incidents of Electric Shock Drowning – or drowning that happens as a result of an electric shock – have been on the rise as boats and docks are being stocked with more electric appliances and devices. If not properly installed or maintained, the devices can “leak” electric current into the water, setting up the potential for tragedy.
As the weather gets warmer and more people head outdoors for a fun time on the water, here’s a primer on ESD and some steps to take to keep safe this summer.
What is an Electric Shock Drowning (ESD)?
ESD happens when a swimmer comes into contact with an electrical current. The current – in this case, alternating current (AC) – causes skeletal muscular paralysis, lasting for only an instant, but long enough to incapacitate a swimmer allowing him to drown.
Where does the electricity come from?
The electric current “leaks” from boats and docks into the water. It can come from frayed wires, improperly wired systems or an AC grounding system that is damaged or malfunctioning.
What causes people to be electrocuted?
Electrical current will always attempt to return to its source in order to complete the electrical circuit. Electrical current is resourceful and will find any way to do that, taking the path of least resistance and most conductivity (anything that will help the current move along its path). The way alternating current (AC) searches for its source is the most deadly for humans because it takes only a small amount of AC to disrupt the electrical impulses that control our muscles and nerves.
Why does ESD happen in fresh water and not salt water?
We go back to conductivity for the answer. Fresh water is not a good electrical conductor. Because it is not a good conductor, the alternating current looks for something better. A human body in fresh water becomes something better. The high amount of salt in humans makes our bodies far better conductors of electrical current than fresh water.
How much electricity is needed for this to happen?
Not much at all. It takes only small amounts of leaking AC to incapacitate or electrocute a person. As small an amount as 15 milliamps can cause paralysis, 100 milliamps – or a third of the amount of electricity needed to light a 40-watt light bulb – can kill a person in seconds. In comparison, a double AA battery produces 2400 milliamps per hour.
Doesn’t anyone regulate docks and boats secured to them?
There are marine codes that regulate docks and boats. They are NFPA 303 (Fire Protection Standard for Marinas and Boatyards), NFPA 70, and National Electric Code 555 (NEC). Boatus.com also notes that “boats not wired in accordance with standards set forth by the American Boat & Yacht Council (ABYC) can be a source of AC leakage.”
Can you tell if water is unsafe to swim in?
No, but here are some tips that could keep you safe.
- Never swim within 100 yards of any freshwater marina or boatyard.
- If you have a boat, have it tested to make sure it is not leaking electricity. You can buy a clamp meter and test it yourself.
- Have a qualified electrician do any electrical work needed on a dock or on your boat.
- Do not use household extension cords for powering your docked boat.
If you feel “tingly” in the water, you could be at risk for shock. In that case, you should: (courtesy of boatus.com)
- Have someone turn off the shore power connection at the meter base and/or unplug shore power cords.
- Tell anyone in the water to move away from the dock.
- Stop anyone else from entering the water.
- If you believe someone has been shocked, reach, throw, row, but don't go into the water to get to anyone who you think has been shocked.
- Call for help. Use 911 or VHF Channel 16.
- Try CPR on the person; don't stop until trained help arrives.
Sources: boatus.com; acegroup.com; Boating Magazine
Cox Media Group