A fire protection system and method for an enclosure includes an inert agent supply source configured to discharge an inert agent following a discharge of a primary agent in the enclosure, a gas detector configured to determine a gas concentration level in the enclosure, and a controller connected with the inert agent supply source and the gas detector and configured to regulate the discharge of the inert agent into the enclosure based at least partially upon the gas concentration level.

Methods, devices, and systems for fire system rule generation are described herein. In some examples, one or more embodiments include a memory, and a processor to execute instructions stored in the memory to receive a rule input condition and a rule output condition for a fire control system of a facility, generate a fire system rule for the facility based on the rule input condition and the rule output condition, and transmit the fire system rule to a fire control panel of the fire control system of the facility.

The invention relates to the field of firefighting equipment, in particular to thermal locks for sprinklers, and is intended for opening sprinklers and automatically initiating the fire extinguishing. The proposed invention is characterized in that in an explosive capsule for a thermal lock comprising a housing made of brittle material, which contains a sealed cavity filled with liquid and a state sensor comprising an electrical conductor partially arranged within the housing cavity; the electrical conductor arranged within the housing cavity is divided into two parts, wherein the ends of each part contact with the liquid, while the liquid used has electrically conductive properties.

A system for storing a hazardous product including a housing unit having an interior volume and a door coupled to the housing unit configured to provide access to the interior volume. The system includes an electrical connection configured to transmit electricity into or out of the interior volume. The system further includes a ventilation system for directing gasses and heat produced during a thermal event out of the interior volume.

A system for fire suppression comprising: a container; an agitator; a pump; a distribution head; and a control module; wherein the container is configured to store a fire retardant; wherein the agitator is housed within the container; and wherein the pump is configured to draw the fire retardant to the distribution head; wherein the agitator is configured to periodically agitate the fire retardant.

An enhanced shipping container apparatus that maintains packages is described having integrated fire suppression. The apparatus has a container base supporting the packages, multiple container walls coupled to the container base, and a container top coupled to each of the container walls. A fire suppression panel is integrated as part of one or more of the walls and top portion, and has a support sheet of fire resistant material; an interior exposed sheet of temperature sensitive material; a sealed boundary connecting the support sheet and interior exposed sheet on peripheral edges (where the sealed boundary, support sheet and interior exposed sheet define a holding cavity), and integrated fire suppression material in the holding cavity. The temperature sensitive material of the interior exposed sheet releases the integrated fire suppressant material from within the holding cavity when the temperature sensitive material of the interior exposed sheet is exposed to a threshold temperature.

An example system for suppressing a fire condition in an aircraft includes a supply of fire suppressant agent on-board the aircraft, a conduit coupled to the supply of fire suppressant agent and configured to carry fire suppression agent, an inlet located downstream of the conduit that is coupled to the conduit and is configured to be attached to a cargo container in the aircraft to deliver the fire suppression agent directly into the cargo container, a valve connected to the conduit between the supply of fire suppressant agent and the inlet, a detector located inside the cargo container, and a computer controller in communication with the valve and in communication with the detector, and controlling operation of the valve for delivery of the fire suppression agent into the cargo container based on an output received from the detector.

A system and method for providing a wildfire home protection water blanket is disclosed. The system includes a plurality of water blanket distributors attached to and integrated into the fascia of a building, a water source and control components for connecting the plurality of water blanket distributors to a water source, and a water line connecting the plurality of water blanket distributors to the water valve, the water line receives water from the water valve upon receiving a user command. The plurality of water blanket distributors comprise an enclosure attached to and integrated into the fascia of the building under the eaves, a plurality of water distribution nozzles and a water line. The water source and control components comprise the water valve and a WIFI-enabled controller.

Disclosed are a fire extinguishing system and method for an ultra-high voltage (UHV) converter station, and a UHV converter station. The fire extinguishing system includes a spray fire extinguishing system and a fire monitor-based fire extinguishing system, where the spray fire extinguishing system includes a first fire pipe and a spray pipe; the fire monitor-based fire extinguishing system includes a second fire pipe and a fire monitor; one fire monitor is disposed right above a firewall on both sides of each converter transformer in the UHV converter station, and each fire monitor is connected to one second fire pipe; a spray pipe is disposed on the firewall on both sides of each converter transformer; and the fire monitor corresponding to each converter transformer, and an outlet of the spray pipe connected to the first fire pipe corresponding to each converter transformer face the converter transformer.

A system includes an energy storage system (ESS), having battery pods and one or more battery cells disposed within the battery pods. The system also includes an ESS trailer, the ESS mounted on the ESS trailer. Also, the system includes a water spray subsystem. The water spray subsystem includes a plurality of sprinkler nozzles mounted within the battery pods and a first fluid connection fluidly connecting the sprinkler nozzles to a pump package. In addition, the water spray subsystem includes a second fluid connection, fluidly connecting the pump package to a water storage supply. The system includes a dry chemical spray subsystem, which has a dry chemical supply vessel, the dry chemical supply vessel mounted to the ESS trailer and a plurality of dry chemical distribution nozzles mounted within the battery pods, the dry chemical distribution nozzles fluidly connected to the dry chemical supply vessel by dry chemical distribution piping.