A pipeline inspection device, including a rotatable drum housing a cable, where the cable is extendable into a pipe, a camera positioned on an end of the cable, and a hub housing electrical components of the pipeline inspection device and including a battery housing. A stand includes a mounting assembly having a first portion rotatably supporting the drum and a second portion supporting the hub within an interior of the drum, the second portion including a core, where the hub is removably coupled to the mounting assembly via the core. The hub is removably coupled to the mounting assembly by a first engagement member on the hub and a second engagement member on the core.

A measurement terminals include: a sensor that measures pipe vibration in a pipe; a measurement information acquisition unit that acquires measurement position information and measurement time information; a transmitter that transmits the pipe vibration, the measurement position information and the measurement time information to an analyzer; a receiver that receives an analysis result from the analyzer; and an output unit that outputs the analysis result from the analyzer. The analyzer includes: a receiver that receives the pipe vibration, the measurement position information, and the measurement time information from the measurement terminals; a storage storing pipe data regarding an installation structure and installation position of the pipe; a leakage position analyzer that analyzes a leakage position in the pipe on the basis of the pipe vibration, the measurement position information, the measurement time information, and the pipe data; and a transmitter that transmits the analysis result to the measurement terminals.

A measurement terminals include: a sensor that measures pipe vibration in a pipe; a measurement information acquisition unit that acquires measurement position information and measurement time information; a transmitter that transmits the pipe vibration, the measurement position information and the measurement time information to an analyzer; a receiver that receives an analysis result from the analyzer; and an output unit that outputs the analysis result from the analyzer. The analyzer includes: a receiver that receives the pipe vibration, the measurement position information, and the measurement time information from the measurement terminals; a storage storing pipe data regarding an installation structure and installation position of the pipe; a leakage position analyzer that analyzes a leakage position in the pipe on the basis of the pipe vibration, the measurement position information, the measurement time information, and the pipe data; and a transmitter that transmits the analysis result to the measurement terminals.

Some demonstrative embodiments include apparatuses, devices and/or methods of detecting leakage in a chamber. For example, an apparatus may include a leakage detector to detect leakage in a chamber based on at least one set of power values corresponding to at least one respective heating zone of the chamber, the set of power values including a plurality of power values corresponding to a respective plurality of manufacturing processes performed by the chamber, wherein a power value of a manufacturing process is based on a plurality of power control values to control the heating zone during the manufacturing process.

A fault diagnosis method for an electrical fused magnesia furnace includes steps of: 1) arranging six cameras; 2) obtaining video information by the six cameras and sending the video information to a control center; then analyzing the video information by a chip of the control center; wherein a multi-view-based fault diagnosis method is used by the chip, comprising steps of: 2-1) comparing a difference between two consecutive frame histograms for shots segmentation; 2-2) computing a set of characteristic values for each shot obtained by the step 2-1), and then computing color, texture, and motion vector information; finally, evaluating shot importance via entropy; 2-3) clustering shots together by calculating similarity; 2-4) generating and optimizing a multi-view video summarization with a multi-objective optimization model; and 2-5) providing fault detection and diagnosis; and 3) displaying results of the fault detection and diagnosis on a host computer inter face of the control center.

An air cleaning device is provided. The air cleaning device includes: a main body; a filter configured to be disposed in the main body to purify air; and an image transmitter configured to show a state of the filter to an outside of the main body.

A system for detecting a gas leak in a generator includes a source of carbon dioxide gas, and a subsystem for introducing the carbon dioxide gas into the generator. An infrared imaging device is adapted to communicate with a notification device to display an image of at least a portion of the generator and the carbon dioxide gas. The infrared imaging device is a cooled detector and a filter with a spectral response between about 3 μm and about 5 μm. At least one of the detector and the filter is cooled to between about −80° C. and about −200° C. The gas leak will be indicated on the notification device.

A method and system of testing a tightness of a closed container using a two-part test. The first part of the two-part test includes connecting the closed container to a gas supply and filing the closed container with a testing gas from the gas supply. A first leak rate of the closed container is measured over a first period of time, and when the first leak rate is less than a first threshold, the controller identifies the closed container as compliant. Conversely, when the first leak rate is greater than the first threshold, the controller measures a second leak rate of the closed container over a second period of time. When the second leak rate is greater than a second threshold, the controller identifies the closed container as noncompliant, and when the second leak rate is less than the second threshold, the controller identifies the closed container as compliant.

The proposed solution concerns in particular an engine, with at least two valve devices for controlling bleed air in dependence on an operating state of the engine, the at least two valve devices in each case being adjustable between an open position and a closed position. A flow space is provided for at least one fluid flow occurring in the flow space in dependence on a position of the at least two valve devices. Arranged in the flow space is at least one fluid sensor, by means of which at least one position of at least one of the at least two valve devices can be determined on the basis of the fluid in the flow space.

A method for ascertaining the presence of cracks in sealed containers includes steps of defining a detection zone (13) in which a sealed container (CT) will be placed, placing a container (CT) in the detection zone (13), ascertaining the presence of a thermal gradient determined by the container in the detection zone (13), the thermal gradient being indicative of the presence of a crack in the container (CT).