Boating Made Simple!

Even seasoned boaters can find themselves facing sudden storms on the open water, even after keeping a watchful eye on marine forecasts before and during their trip on the water. Being prepared for whatever Mother Nature throws at you will increase your likelihood of successfully weathering a storm at sea.

For example, make sure your vessel carries necessary safety equipment such as a lightning rod, working radio, a compressed air horn (fog horn) or whistle, working running lights and personal flotation devices. Another help is to treat your vessel's windshield with a quality rain shield to improve visibility during a storm. Premium rain shields are made with transparent polymers that create invisible barriers so that rain, wave splash and sea spray beads up and rolls from surfaces.

Batten down the hatches, close windows and portholes to keep as much water out of the vessel as possible.

1. Pump the bilge dry.

2. Stow all gear in secure areas.

3. Demand that all onboard put on personal flotation devices.

4. Ready emergency gear such as flashlight, sounding devices or horns, bailers, first aid kit and flares.

5. Get a new fix on your position and chart your course toward sheltered waters if possible. Monitor VHF Channel 16 for weather updates.

6. If extremely rough seas are at hand, make sure anyone above deck is tethered to prevent being thrown overboard. Tie the anchor to the boat.

7. Ready your sea anchor or drogue. A sea anchor is a floating canvas or nylon cone that attaches to the bow. It looks and works much like a parachute that, when the engine is off, reduces drift considerably, while keeping the bow of the boat in the wind. A drogue helps keep the stern perpendicular to the waves. The drogue is towed off the stern of the boat and is designed to limit the vessel's speed and the angle of yaw. CAUTION: Boaters need special training to understand the proper use of a drogue as the steering control gained by using a drogue can also mean a proclivity to capsizing Turn on navigation lights.

1. Maneuver so the boat takes the initial and heaviest winds on the bow, not abeam. (The smaller the boat, the more important it is to head into the wind.)

2. Waves should be approached at a 45-degree angle. This will help keep the propeller underwater and reduce pounding.

3. In moderate seas, slow your speed so you can ride atop and over a wave. Avoid driving the bow into a wave or riding to the top of the wave and falling off the back, which could bury the bow.

4. Remember ... the heavier the seas, the slower your boat speed to minimize strain on the vessel and maximize steering control.

5. Continue to keep the bilge free of water to prevent the rolling effects of sloshing water below.

A thunderstorm more than a mile away from your vessel can produce lightning that can strike your boat. In fact, the National Weather Service reports that lightening can be generated as far as 10 miles away from a storm. The service recommends that mariners use the "30-30 Rule" when visibility of the storm is still good: Once you see lightning, count the seconds until you hear thunder. If that time is 30 seconds or less, the thunderstorm is within 6 miles of you and is dangerous. Wait at least 30 minutes after the last lightning flash before leaving shelter. Within that time there could still be a threat of a lightning strike ... even if it is sunny and the sky is clear.

Note the following storm survival tips:

1. Should you spot a threatening cloud ... even at a distance ... stop all contact with the water. Discontinue all water activities such as fishing or swimming. (Beware: Graphite fishing rods are excellent conductors.)

2. Lower or remove radio antennas and other metal rod objects (unless they are part of a lightning protection system).

4. Stay in the center of the cabin or as low in the boat as possible to avoid becoming a human lightning rod. For the same reason, do not put each hand on any items connected to the electrical system at the same time.

The National Fire Protection Association, Lightning Protection Code, suggests the following ways that a boater can protect his boat and minimize damage if it is struck or near an area where lightning strikes:

A lightning protective mast will generally divert a direct lightning strike within a cone-shaped radius two times the height of the mast. Therefore, the mast must be of sufficient height to place all parts of the boat within this cone-shaped zone of protection.

The path from the top of the mast to the "water" ground should be essentially straight. Any bends in the conductor should have a minimum radius of eight inches.

To provide adequate protection, the entire circuit from the top of the mast to the "water" ground should have a minimum conductivity equivalent to a No. 8 AWG copper conductor. If a copper cable is used, the individual strands should be no less than No. 17 AWG. Copper metal or strips should be a minimum of No. 20 AWG.

Major metal components aboard the boat, within six feet of the lightning conductor, should be interconnected with the lightning protective system with a conductor at least equal to No. 8 AWG copper. It is preferable to ground the engine directly to the ground plate rather than to an intermediate point in the lightning protection system.

If the boat's mast is not of a lightning protective design, the associated lightning or grounding connector should be essentially straight, securely fastened to the mast, extended at least 6 inches above the mast and terminate in a sharp receiving point.

The radio antenna may serve as a lightning protective mast, provided it and all the grounding conductors have a conductivity equivalent to No. 8 AWG copper and is equipped with lightning arrestors, lightning protective gaps, or means for grounding during electrical storms. Most antennas do not meet these requirements. The height of the antenna must be sufficient to provide the cone-shaped zone of protection.

Antennas with loading coils are considered to end at a point immediately below the loading coil unless this coil is provided with a protective device for by-passing the lightning current. Non-conducting antenna masts with spirally wrapped conductors are not suitable for lightning protection purposes. Never tie down a whip-type antenna during a storm if it is a part of the lightning protection system. However, antennas and other protruding devices, not part of the lightning protection system, should be tied down or removed during a storm.

All materials used in a lightning protective system should be corrosion-resistant. Copper, either compact-stranded, concentric-lay-stranded or ribbon, is resistant to corrosion.

The "water" ground connection may be any submerged metal surface with an area of at least one square foot. Metallic propellers, rudders or hull will be adequate.

On sailboats, all masts, shrouds, stays, preventors, sail tracks and continuous metallic tracks on the mast or boom should be interconnected (bonded) and grounded.

Small boats can be protected with a portable lightning protection system. This would consist of a mast of sufficient height to provide the cone of protection connected by a flexible copper cable to a submerged ground plate of at least one square foot. When lightning conditions are observed in the distance, the mast is mounted near the bow and the ground plate dropped overboard. The connecting copper cable should be fully extended and as straight as possible. The boaters should stay low in the middle or aft portion of the boat.