A fracturing device includes a power unit, and the power unit includes a muffling compartment, a turbine engine, and an air intake unit. The air intake unit is communicated with the turbine engine through an intake pipe and configured to provide a combustion-supporting gas to the turbine engine; the air intake unit is at a top of the muffling compartment and the muffling compartment has an accommodation space, the turbine engine is within the accommodation space.

A fracturing device, a firefighting method thereof, and a computer readable storage medium are disclosed. The fracturing device includes a power unit, the power unit includes a muffling compartment, a turbine engine, and a firefighting system; the firefighting system includes a firefighting material generator, at least one firefighting sprayer and at least one firefighting detector, the at least one firefighting sprayer and the at least one firefighting detector are located in the muffling compartment, each of the at least one firefighting sprayer is connected with the firefighting material generator and configured to spray out firefighting material generated by the firefighting material generator.

A connection device, a control box component, and a fracturing apparatus are provided. The connection device includes: a fixation rack, configured to be fixedly connected with a mounting base; a box connection mechanism, configured to be connected with the control box, and drive the control box to move at least from a first position to a second position relative to the fixation rack. In a case that the control box is located at the first position, the control box is located at a side of the transmission component and a distance between the control box and the transmission component is less than a predetermined distance, and during the control box being moved from the first position to the second position, the control box is away from the transmission component to form an operation space for the transmission component at the first position.

Systems and methods for extinguishing a fire on an exterior surface of a building are disclosed. A fire detection system identifies the presence of a fire and in response a valve is actuated to direct water through a fluid channel out of an orifice and onto an exterior surface of the building. The water is delivered such that it flows down the exterior surface without ejecting away from the building.

A fracturing device, a firefighting method thereof, and a computer readable storage medium are disclosed. The fracturing device includes a power unit, the power unit includes a muffling compartment, a turbine engine, and a firefighting system; the firefighting system includes a firefighting material generator, at least one firefighting sprayer and at least one firefighting detector, the at least one firefighting sprayer and the at least one firefighting detector are located in the muffling compartment, each of the at least one firefighting sprayer is connected with the firefighting material generator and configured to spray out firefighting material generated by the firefighting material generator.

A fracturing device, a firefighting method thereof, and a computer readable storage medium are disclosed. The fracturing device includes a power unit, the power unit includes a muffling compartment, a turbine engine, and a firefighting system; the firefighting system includes a firefighting material generator, at least one firefighting sprayer and at least one firefighting detector, the at least one firefighting sprayer and the at least one firefighting detector are located in the muffling compartment, each of the at least one firefighting sprayer is connected with the firefighting material generator and configured to spray out firefighting material generated by the firefighting material generator.

Disclosed herein are a system, method, and apparatus for arresting flames in an air return line. The apparatus includes a flame barrier containing one or more metal mesh layers and configured to permit airflow there through while preventing flame break-through. The flame barrier can also have or be connected to one or more temperature or pressure sensors configured to detect blockage of airflow through the flame barrier and to detect damage to the flame barrier. The apparatus can also include additional temperature or pressure sensors for detecting the propagation of deflagration in the air return line.

Disclosed herein are a system, method, and apparatus for arresting flames in an air return line. The apparatus includes a flame barrier containing one or more metal mesh layers and configured to permit airflow there through while preventing flame break-through. The flame barrier can also have or be connected to one or more temperature or pressure sensors configured to detect blockage of airflow through the flame barrier and to detect damage to the flame barrier. The apparatus can also include additional temperature or pressure sensors for detecting the propagation of deflagration in the air return line.

A fire blanket deployment system includes a fire blanket assembly including a foldable fire blanket that is detachably coupled to a carrier. The foldable fire blanket is initially in a folded state. The system can include a frame having a plurality of vertical supports that are spaced apart from one another and for placement about an asset to be protected. A first suspension system is coupled to the plurality of vertical supports and is configured to move the fire blanket assembly to a target location between the plurality of vertical supports. A second suspension system that is coupled to the plurality of vertical supports and is configured to controllably unfold the fire blanket once the fire blanket assembly in at the target location. The second suspension system has an automatic detachment mechanism that allows the unfolded fire blanket to move downward toward the asset to be protected.

A fire blanket deployment system includes a fire blanket assembly including a foldable fire blanket that is detachably coupled to a carrier. The foldable fire blanket is initially in a folded state. The system can include a frame having a plurality of vertical supports that are spaced apart from one another and for placement about an asset to be protected. A first suspension system is coupled to the plurality of vertical supports and is configured to move the fire blanket assembly to a target location between the plurality of vertical supports. A second suspension system that is coupled to the plurality of vertical supports and is configured to controllably unfold the fire blanket once the fire blanket assembly in at the target location. The second suspension system has an automatic detachment mechanism that allows the unfolded fire blanket to move downward toward the asset to be protected.