An apparatus for a bulldozer that makes the process of controlling a wildfire safer and more effective. The apparatus includes a large capacity water tank that can be mounted to a rear of dozer using a frame. A pump can draw water from the water tank and pump the water at a high pressure. One or more hose reels can also be provided. Strategically positioned sprayers can spray water to nearby surrounding, in particular, on the Fireline made by the dozer. A major safety feature is a remote controlled monitor mounted on the front of the dozers can spray water directed by the operator can protect the dozer from fire as well as fire personnel if a fire comes at the dozer or fire personnel.

A machine for extinguishing fires, using materials that are excavated and thrown directly from the ground includes a brush cutting module with knives and lateral panels, an excavating module comprising a cutter with spikes, and a throwing module formed by a flywheel mounted on a rotary shaft and provided with radial blades, allowing the excavated material to be thrown through openings in the throwing module. The position of the openings can be adjusted and the excavated materials can be thrown in one direction or another.

A process of forming strategic chemical-type wildfire breaks on ground surfaces to proactively prevent fire ignition and flame spread, and reduce the production of smoke in the presence of a wildfire. The process involves using a 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 ground surfaces in advance of wild fire, to blanket the ground surfaces 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.

Provided is a technology of preventing an increase in size of a treatment plant, which may be caused when a safety clearance for the prevention of spread of a fire is set, and restraining an increase in designed fire-extinguishing water usage. A treatment plant for handling a flammable liquid includes: an equipment placement region in which a plurality of equipments configured to handle the flammable fluid are placed, the equipment placement region being divided into four or more firewater supply sections. A plurality of fire-extinguishing water supply facilities are provided to the firewater supply sections, respectively, the fire-extinguishing water supply facilities each being capable of, when a fire occurs in the firewater supply sections, simultaneously supplying fire-extinguishing water to a fire-occurrence section and an adjacent section.

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.

The fire extinguishing tarpaulin is configured for use extinguishing a chemical combustion reaction in an area of conflagration. The fire extinguishing tarpaulin comprises a fire tarpaulin, a rocket system, and an aircraft. The fire tarpaulin forms a gas impermeable barrier that limits the chemical combustion by limiting access to the oxygen required to sustain the chemical combustion reaction. The rocket system is a propulsion system that propels the fire tarpaulin to the chemical combustion reaction. The aircraft is a vehicle used: a) as a launching platform to deliver the fire tarpaulin to the chemical combustion reaction; and, b) a vehicle to subsequently recover the fire tarpaulin for future use.

Firefighting gas releasing apparatuses may include a trigger housing. A containment shell may have a plurality of shell sections pivotally carried by the trigger housing. The plurality of shell sections may be positional in a closed shell configuration and an open shell configuration. A shell interior may be formed by the containment shell in the closed shell configuration. The shell interior may be configured to contain a supply of at least one fire-suppressing gas. A selectively-actuatable shell releasing assembly may be carried by the trigger housing. The shell releasing assembly may be configured to engage the plurality of shell sections and maintain the containment shell in the closed shell configuration and disengage the plurality of shell sections for deployment of the containment shell to the open shell configuration. Firefighting gas releasing methods are also disclosed.

Environmentally-clean aqueous-based fire inhibitor biochemical compositions in liquid phase that can be atomized and sprayed, over a broad ambient working temperature range, as a fine mist over ground surfaces, native ground fuel, living plants, trees and shrubs and when dried forming a durable fire protective coatings having improved surface coverage, and being an effective proactive wildfire inhibitor. These environmentally-clean aqueous-based fire inhibitor biochemical compositions can also be applied to wood products, and wood-framed and mass-timber buildings, decks and anything of a combustible nature, to provide proactive wildfire protection without compromising wood-fiber strength or producing volatile organic components (VOCs).

A process of forming strategic chemical-type wildfire breaks on ground surfaces to proactively prevent fire ignition and flame spread, and reduce the production of smoke in the presence of a wildfire. The process involves using a 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 ground surfaces in advance of wild fire, to blanket the ground surfaces 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.

A fuel break with integral watering system includes watering towers with associated pumps and water supplies that apply water to fuel break vegetation when needed, such as during a drought and/or when a fire is approaching. Water can be delivered by pipes from a remote water source, and/or collected as runoff water in reservoirs below the watering towers. Sensors can monitor water content of the reservoirs, and/or moisture content of surrounding soil, vegetation, and/or air. The towers can be remotely powered by wires, and/or by batteries recharged by solar panels. The watering system can be configured to apply water both to tall vegetation and to ground vegetation. Super-absorbent polymer added to the fuel break can absorb and retain rain water and water from the towers. Reforestation can include planting fire resistant trees in bunches, locating the towers near the bunches, and/or relocating power lines below grade.