A water station consisting of a large water tank or bag with a plurality of dangling appendages for lowering toward the ground. These appendages include heat sensors and sprayers, and one or more may be capable of connecting to a fire fighting truck, water tank, fire hydrants, or other pieces of equipment. One or more appendages may also include a bag containing fire-fighting safety gear or ground-based hoses for fighting fires. Cameras and other sensors provide constant feedback to the pilot of the aircraft, such as a helicopter, deploying the water station.

The present application provides a method for preventing wildfire in a target, the method comprising providing an aqueous composition comprising fire retardant and fibrillar cellulose and applying the aqueous composition to the target. The present application also provides an aqueous composition comprising fire retardant and fibrillar cellulose, and a container comprising the aqueous composition. The present application also provides use of the aqueous composition for preventing wildfire.

A method of and wireless mobile information network for managing the application of a clean fire and smoke inhibiting slurry composition containing clean fire inhibiting chemicals, and cellulose or wood fiber, mixed with water and other additives, on surfaces including ground surfaces in advance of wild fire, to blanket grounds from wildfire ignition, and also application over smoldering ambers and ashes to prevent re-ignition while reducing (i) the use of significant amounts of water, (ii) the production of toxic run off water, and (iii) toxic smoke.

An autonomous firefighting system is disclosed. The autonomous firefighting system may include a controller coupled to one or more unmanned aircraft, one or more unmanned vehicles, one or more valves of a water spraying system, or a combination thereof, and further coupled to one or more fire-associated risk surveillance assets (FARSAs). The controller utilizes the FARSA(s) to detect a fire-associated risk event, which may include an active or potential fire event, and subsequently creates and delivers instructions to the one or more unmanned aircraft, one or more unmanned vehicles, one or more valves of a water spraying system, or combination thereof for mitigating damage associated with the actual or potential fire-associated risk event.

Aspects of the disclosed embodiments relate to an aerial firefighting system for a helicopter, the firefighting system including: an external reservoir for storing water, wherein the reservoir includes a water outlet; a supporting frame coupled to an outer surface of the reservoir; and a moveable robotic nozzle fluidly connected to the water outlet and mounted on the supporting frame or attached to a hose reel for distributing water on a fire; wherein the moveable nozzle is operable by a user from within the helicopter to control the direction that the water is distributed.

The invention relates to a water scooping apparatus (2) for an aircraft (1), comprising a water scooping unit (7) that is associated with a water tank (10) via an extendible tubular member (5). The water scooping unit being provided with an intake opening (20) that is in fluidic communication with the extendible tubular member and arranged at a side of the water scooping unit facing away from the sky when the water scooping apparatus is in an active state, the water scooping unit (7) being provided with a plurality of surface-piercing hydrofoils (25, 26, 27, 28) arranged surrounding the intake opening (20) and configured to generate an upward force when being moved through a body of water to position the water scooping unit with respect to a surface (9) of the body of water in such a way to ensure water intake via the intake opening.

The invention relates to a system for dropping a liquid, comprising a liquid storage reservoir (2) provided with a liquid outlet area (3) that comprises an outlet nozzle (4) and a dropping hatch (5).

Furthermore, the dropping System (1) comprises means for varying the air pressure in the storage reservoir (2) depending on the level of liquid in the reservoir (2).

A disposable unmanned aerial glider (UAG) with pre-determined UAG flight capabilities. The UAG comprises a flight module comprising at least one aerodynamic arrangement; and a fuselage module comprising a container configured for storing therein a payload and having structural integrity. The container is pressurized so as to maintain structural integrity thereof at least during flight, so that the UAG flight capabilities are provided only when the container is pressurized.

An unmanned aerial vehicle having a fuselage, a water collection and emission equipment, wings, linear reinforcements, a landing gear and a vertical fin. The water collection and emission equipment has buoyancy units, a sealed cabin, a water pump and a water collection and emission pipe. The sealed cabin is detachably connected to the fuselage, and a compartment is arranged in the sealed cabin. The water pump is arranged in the compartment and the side wall of the sealed cabin has at least one concave part which is concave towards the direction of the inner cavity used for slowing down the swaying of water.

The precision aerial firefighting and deluge system for helicopters and unmanned aerial systems is a device to attack fires inaccessible to firefighters due to altitude or other obstructions by streaming water or other fire retardant into or onto a specific location on the ground, on the water, or at altitude. The system employs a medium or heavy lift helicopter or unmanned aerial systems one or more tanks or bladders for water and/or fire retardant chemicals, a compressed air foam system, a pump, rigid plumbing lines for outflow of water/fire retardant; a rigid, telescopic boom that extends beyond rotor tip path plane, flexible lines/hoses inside boom; a crew switched electronic boom controller, a boom management system, a flange adapter, an electric, variable direction, crew-controlled fire monitor, a drop-hose, and a dart with inertial feathers.