A temperature-control and fire-suppression system is provided for a system space, which optionally houses IT equipment. The system space has a ventilation system for providing controlled temperature air, for example to the IT equipment. A store of a fire-suppressing gas in liquid form is coupled to a supply means for supplying the fire-suppressing gas in liquid form to the system space, such that evaporation of the fire-suppressing gas in liquid form cools, or absorbs energy, from, the air in the system space. A temperature sensor is provided for sensing a temperature in the system space and a controller is responsive to the sensed temperature for controlling the supply means, to supply the fire-suppressing gas in liquid form while maintaining the sensed temperature above a predetermined lower temperature.

A fire suppression nozzle includes a first conduit including an inlet and an outlet, a second conduit coupled to the first and including a plurality of outlets spaced apart from a second plurality of outlets. The nozzle includes a first annular sound absorbing member positioned on a first side of the outlet and a second annular sound absorbing member positioned on a second side of the outlet wherein the first conduit provides inert gas to the second conduit. The inert gas exits the outlet in a first direction and a first portion of the inert gas is directed toward the first plurality of outlets in a second direction and a second portion is directed toward the second plurality of outlets in a third direction opposite the second direction, wherein the second and third directions are generally perpendicular to the first direction.

Disclosed herein is a solid aerosol detonator capable of generating a fire extinguishing gas by vaporizing an internal solid fire extinguishing agent in order to extinguish a fire which may be generated in a place to live or an industrial place and a fire extinguishing apparatus using the same. The solid aerosol detonator and the fire extinguishing apparatus using the same can be detonated using only a fire extinguishing agent of a solid form without using an electronic match or an ignition agent, that is, a material coated on an electrical percussion. Accordingly, the combustion action of a solid aerosol can be stably generated because the solid aerosol detonator and the fire extinguishing apparatus using the same are not sensitive to a change in the physical properties and a change in the temperature even after a lapse of a specific time.

A storage facility includes a storage space, a container handling vehicle, a first upper vehicle support, a first lower vehicle support, a container delivery vehicle, a transit space, and a first separation wall. The storage space encloses a storage and retrieval system including a storage grid configured to store a plurality of storage containers in vertical stacks. The first upper vehicle support extends in an upper horizontal plane above the storage grid. The container handling vehicle is configured: to transport at least one of the plurality of storage containers by a wheel arrangement between at least two locations on the first upper vehicle support; and to vertically displace the at least one storage container by a lifting device. The first lower vehicle support extends in a lower horizontal plane below the first upper vehicle support. The container delivery vehicle operates within a lower section of the storage space above the first lower vehicle support. The container delivery vehicle is configured to receive the at least one storage container from the container handling vehicle and to transport the at least one storage container between at least two locations on the first lower vehicle support by a wheel arrangement. The transit space includes a second lower vehicle support extending in the lower horizontal plane and arranged relative to the first lower vehicle support such that the container delivery vehicle may move between the lower section of the storage space and a lower section of the transit space. The first separation wall separates the storage space and the transit space. The first separation wall includes: a first lower opening sized and positioned to allow the container delivery vehicle to pass through between the lower section of the storage space and the lower section of the transit space; and a first lower closable gate configured to open and close the first lower opening.

The invention relates to a method for determining and/or monitoring the air tightness of an enclosed room (2) which is equipped with an oxygen reducing system (1) and in the atmosphere of which at least one oxygen content that can preferably be determined in advance and is reduced in comparison to the normal surrounding air can be set and maintained in order to prevent and/or extinguish fires by introducing an oxygen-displacing gas. The oxygen reducing system (1) has a compressor system (4; 4.1, 4.2) for compressing an initial gas mixture and a gas separation system (3; 3.1, 3.2) downstream of the compressor system (4; 4.1, 4.2) for separating at least one part of the oxygen contained in the initial gas mixture and for providing a nitrogen-enriched gas which is supplied to the enclosed room (2). The differential pressure set in the room (2) is ascertained and compared to a corresponding reference value, whereby information regarding the air tightness of the room (2) is provided.

A controller for a motor vehicle having an internal combustion engine, and a device for detecting a fire in a fluid conduit, the device having a fluid state sensor for detecting a state variable of a fluid that is conducted in the fluid conduit, are provided. The determination of a fire situation is performed in a manner dependent on a signal of the fluid state sensor.

An automated grid based storage and retrieval system includes a storage grid and a plurality of storage containers for storing product items therein. In the storage grid, the storage containers are stacked vertically in stacks arranged beneath openings of a grid-based rail system to provide storage columns of a storage volume. The storage volume includes a flow path extending through a plurality of the stacks. The flow path is formed by spacers positioned within the stacks. The spacers are configured to allow a fluid to flow through the spacer. Each spacer is stacked at a predetermined level between storage containers in a stack and adjacent another of the spacers in a neighboring stack to provide adjacent sections of the flow path.

A test cell for an aircraft turbojet, wherein the test cell comprises a U-shaped configuration, with a passageway in the form of an elongated corridor, an inlet chimney, and an outlet chimney. The corridor includes a securing area with a securing arm for holding the turbojet during its test. The passageway furthermore reveals an upstream shutter and a downstream shutter, the two shutters including one pivoting flap or a series of pivoting flaps. In the event of a fire, the shutters close due to autonomous return means. Gravity allows the flap(s) to come down to the closed position and to confine the turbojet in order to rapidly stifle the fire.

A method of suppressing a fire includes the steps of dispensing a first inert gas in a suppression area at an initial rate, detecting an undesired temperature in the suppression area, dispensing a second inert gas at a subsequent rate in the suppression area in response to the undesired temperature and displacing a volume from the suppression area with the inert gas to achieve a temperature below the undesired temperature.

A method for efficiently treating spontaneous ignition of the remaining coal in a large area goaf of a shallow-buried coal bed, which method integrates leaking stoppage, airflow control and fast inerting and cooling so as to efficiently prevent and treat the spontaneous ignition of the remaining coal in the large area goaf of the shallow-buried coal bed.