Safety improvements for UV radiation in aquatic applications

The invention claimed is: 1. A vessel that during use is at least partly submerged in water, the vessel comprising: an ultraviolet (UV) light emitting element in or on an external surface of the vessel, wherein the UV light emitting element includes one or more light sources and is configured to emit UV radiation in a direction away from the external surface of the vessel to irradiate with the UV radiation a portion of the water adjacent to a part of the external surface of the vessel; and a water switch, wherein the water switch is connected in an electrical circuit in series with a power source and the UV light emitting element, and wherein the water switch is configured to be closed by the water acting as a conductor in the electrical circuit between the power source and the UV light emitting element so as to complete the electrical circuit and provide power from the power source through the water to the UV light emitting element, and to cause the UV light emitting element to produce the UV radiation, and wherein when the water is not present at the water switch the water switch is open and the UV light emitting element does not emit the UV radiation. 2. The vessel of claim 1 , further comprising a local energy harvesting system, wherein the local energy harvesting system is configured to harvest electrical energy and to provide said harvested electrical energy to said UV light emitting element. 3. The vessel of claim 2 , wherein the local energy harvesting system is selected from the group consisting of a solar cell, a turbine operating in water, and a piezoelectric element operating on a pressure of waves. 4. The vessel of claim 1 , wherein the UV light emitting element includes a UV radiation escape surface, and wherein the UV radiation escape surface is configured as part of said external surface of the vessel. 5. The vessel of claim 1 , wherein the UV light emitting element comprises a luminescent material, wherein the luminescent material is configured to absorb part of the UV radiation and convert the absorbed part of the UV radiation into visible luminescent light, wherein the UV light emitting element is configured to provide said visible luminescent light emanating in a direction away from the external surface. 6. The vessel of claim 1 , further comprising a visible light emitting device, wherein the visible light emitting device is connected in series with the UV light emitting element, and is configured to provide visible light emanating as a visible light beam in the direction away from the external surface in response to the UV light emitting element being turned on and emitting the UV radiation, wherein the visible light beam has a cross-section having a shape of a warning sign. 7. The vessel of claim 1 , wherein the external surface comprises a UV radiation escape surface through which the UV light passes from the UV light emitting element, and wherein the UV radiation escape surface is provided at a position which is permanently under a water line of the water during use of the vessel. 8. The vessel of claim 1 , wherein the UV light emitting element is configured to provide at least 80% of the power of the UV radiation in a direction within an angle of 0-90° from a perpendicular to the earth's surface and in a direction below the vessel, relative to the vessel during its use. 9. The vessel of claim 1 , wherein the water switch is disposed at a height which is higher with respect to a water line of the water than the UV light emitting element. 10. A vessel that during use is at least partly submerged in sea water, the vessel comprising: an ultraviolet (UV) light emitting element attached to a hull of the vessel, wherein the UV light emitting element includes one or more light sources and is configured to irradiate with UV radiation a portion of the sea water adjacent to a part of the hull of the vessel; and a water switch, wherein the water switch is connected in an electrical circuit in series with a power source and the UV light emitting element, and wherein the water switch is configured to be closed by the sea water, wherein the sea water itself is a conductor in the electrical circuit between the power source and the UV light emitting element so as to complete the electrical circuit and provide power from the power source through the sea water to the UV light emitting element, and cause the UV light emitting element to produce the UV radiation, and wherein when the sea water is not present at the water switch the water switch is open and the UV light emitting element does not emit the UV radiation. 11. The vessel of claim 10 , further comprising a local energy harvesting system is configured to harvest electrical energy and to provide the harvested electrical energy to the UV light emitting element. 12. The vessel of claim 10 , wherein the UV light emitting element comprises a luminescent material, wherein the luminescent material is configured to absorb part of the UV radiation and convert the absorbed part of the UV radiation into visible luminescent light, and wherein the UV light emitting element is configured to provide the visible luminescent light emanating in a direction away from the hull of the vessel. 13. The vessel of claim 10 , further comprising a visible light emitting device connected in series with the UV light emitting element, wherein the visible light emitting device is configured to provide visible light emanating as a visible light beam in a direction away from the hull of the vessel in response to the UV light emitting element being turned on and emitting the UV radiation, wherein the visible light beam has a cross-section having a shape of a warning sign.