An apparatus for processing incendiary capsules for the purpose of prescribed burning. The apparatus includes a reciprocating injector tube driven by a crankshaft and a reciprocating mechanical pump driven by a cam. In order to synchronize these reciprocating motions the crankshaft and cam are joined together as a single part. The incendiary spheres exit a hopper and line up in series in a tube which deposits them one by one into a nest. Each individual sphere is punctured in the nest by a needle then injected with reactant. Each sphere is then withdrawn from the nest and dropped through a discharge opening before the next incendiary in line is processed in the same manner.

An apparatus for processing incendiary capsules for the purpose of prescribed burning. The apparatus includes a reciprocating injector tube driven by a crankshaft and a reciprocating mechanical pump driven by a cam. In order to synchronize these reciprocating motions the crankshaft and cam are joined together as a single part. The incendiary spheres exit a hopper and line up in series in a tube which deposits them one by one into a nest. Each individual sphere is punctured in the nest by a needle then injected with reactant. Each sphere is then withdrawn from the nest and dropped through a discharge opening before the next incendiary in line is processed in the same manner.

A method of laser (30) based fire fighting, the method comprising: delivering energy from an emitted energy beam source to an active fire affected area (10) so as to process combustible material by one of cutting, ablating, charring and total oxidation so as to reduce the quantity of combustible material. Preferably the provided energy exhibits a total fluence of at least 50 micro-joule per square centimeter measured over a window of no more than 0.1 milliseconds. Preferably the provided energy is from a laser.

Systems and methods for reducing an overpressure caused by an explosion of a vapor cloud are provided. In one or more embodiments, the system can include one or more sensors operable to detect the explosion of the vapor cloud. The system can also include one or more igniters operable to ignite the vapor cloud at locations throughout, after the explosion of the vapor cloud is detected, to provide a discrete combustion zone at each location. Each combustion zone can form a discrete pressure wave, thereby reducing the overpressure caused by the explosion of the vapor cloud.