Abstract: A method for testing tightness of container includes placing a bell-shaped test head over a mouth of the container, sealing the container against the test head, accommodating at least a portion of the container in a testing chamber within the test head, increasing a pressure difference between a pressure within the testing chamber and an internal pressure of the container, identifying evidence of matter exiting the container and entering the testing chamber. Typical evidence includes emergence of filling substance into the testing chamber and/or foaming of the filling substance in the testing chamber. Identifying such evidence includes using a camera to monitor either the region of the container or the test chamber for the evidence.

Abstract: A filter has a rectilinear configuration with top and bottom surfaces, front and rear surfaces, and side surfaces. A ceiling has a coupling plate with a test port and a sensor port. Test equipment located below the ceiling is adapted to generate a flow of input aerosol. A coupling line is positioned between the test equipment and the test port. Sensor equipment is positioned below the ceiling and is adapted to sense a flow of output aerosol. An output line is positioned between the sensor equipment and the sensor port. First and second intermediate lines are operatively coupled between the test port and the filter and between the filter and the sensor port. An air conditioner line is operatively coupled to the top surface of the filter.

Abstract: A photoacoustic gas detector may include: a gas chamber configured to receive a gas to be analyzed therein, an excitation element configured to selectively excite gas molecules of a specific type that is to be detected in the gas received in the gas chamber in a time-varying fashion, thereby generating pressure differences, a sensor configured to detect pressure differences generated by the excitation element, and a pump configured to pump gas between the exterior of the photoacoustic gas detector and the gas chamber.

Abstract: An instrumented indentation apparatus and instrumented indentation method, for use in instrumented indentation, employ a flat-ended indenter (punch). Force-displacement data of a loading operation, in which a sample is indented using the indenter, and the known value of the effective radius of the end surface of the indenter, are used to calculate values of stress and strain. The entire stress-strain curve for the sample may be produced from these values.

Abstract: A fluid level detecting system provides an input signal at a specific frequency to a sample in a container. A probe contacts the energized sample and provides a signal to a level sensing circuit. The level sensing circuit amplifies the signal from the probe and then bandpass filters, tuned to the specific frequency, the amplified signal. This filters out extraneous signals received from, for example, a cover on the container, and specifically identifies when the probe has contacted the sample fluid by comparing the filtered signal to threshold levels.

Abstract: A moisture probe or sensor including an attachment element configured for attachment to a plant, bush or tree to determine a moisture content of the plant bush or tree. The moisture probe including a transceiver configured to transmit a moisture signal indicative of the moisture content of the plant, tree or plant.

Abstract: The present invention discloses air-tightness test equipment for a turbine reduction gearbox, comprising a base, characterized in that a product mounting plate is arranged and fixed on the base by a support frame, the product mounting plate is provided with a product positioning slot having an opening on its one side; a compression cylinder is arranged over the product mounting plate by a cylinder support plate, the compression cylinder is vertically arranged, and a piston rod of the compression cylinder faces downward and a sealed connector corresponding to the upper part of the product positioning slot is fixed at the lower end of the piston rod; the sealed connector has a cavity in which an inflator is arranged, and the inflator is connected with an inflator pump by a pipeline; the inflator pump is provided with a gas filtration device, the pipeline is provided with a gas valve, and a gas pressure sensor is arranged on the pipeline between the gas valve and the inflator; the compression cylinder, the infla

Abstract: A system for detecting the spread of a liquid. The system detects the position of a first portion of the liquid and a second portion of the liquid to detect the spread.

Abstract: A low water sensor testing apparatus consisting of a 2 piece threaded steel ball valve unit with spring loaded handle connected at one end cavity portion thereof to initial piping emanating from a hot water boiler and connected at the second end cavity portion thereof to an equivalent adapter unit in turn connected to the first end segment of an E-shaped piping unit having its first stem portion connected to a ball valve unit via another adapter unit, its second stem portion connected via yet another adapter unit to a low water sensor unit and, with the second end segment of the E-shaped piping unit being connected to another equivalent adapter unit in turn connected to the first end cavity portion of a three way purge valve unit being connectable within the second cavity end portion thereof to outflow piping leading to a structure's heating system.

Abstract: A rotary rheometer has two measurement parts which delimit a measurement gap and can be moved relative to one another in a predetermined movement direction by an adjustment device. At least one switching unit is provided, which responds to changes in a force flow in a force circuit of the rotary rheometer delimited by the measurement parts and has switching contacts for the activation of an adjustment device, which stops the adjustment device when a predetermined limit force value is exceeded for the force flow in the positive or negative direction, optionally without relative movement of the measurement parts, or with the measurement parts remaining in the same position.

Abstract: A welding system using a purge plug for data acquisition. In one example, a purge plug includes purge plug component having a sealing structure. The sealing structure is configured to abut a surface of a hollow device and to form a seal between the sealing structure and the hollow device. The purge plug also includes a sensor at least partly disposed in the purge plug component, the sealing structure, or some combination thereof. The purge plug component is configured to be disposed on a workpiece having the hollow device to purge an undesired gas from the workpiece.

Abstract: An engine emissions test system according to the principles of the present disclosure includes a sampling conduit, at least one sample bag, a read circuit, and a fill circuit. The sampling conduit is configured to receive exhaust from an engine. The at least one sample bag is configured to store a sample of exhaust. The read circuit is configured to communicate the stored sample of exhaust between the at least one sample bag and an analyzer. The fill circuit includes a fill gas line configured to provide a fill gas to be mixed with the sample of exhaust. The fill gas line extends between a fill gas source and the read circuit.

Abstract: The invention concerns a method and system for analyzing a liquid sample containing solid matter. The method comprises fractionating the sample according to particle sizes and/or masses of the solid matter so as to produce sample fractions, and measuring at least one physical or chemical property of at least one of said sample fractions. According to the invention the sample is conducted to a disintegration channel having one or more depressions, and a liquid flow having a non-constant temporal velocity profile is applied through the disintegration channel, in order to gradually take solid matter of the sample with the liquid flow from said one or more depressions for providing said sample fractions. The invention allows for efficient fractionation of samples, which cannot be fractionated using conventional field flow fractionation, for example.

Abstract: A method for identifying and measuring volume fraction constituents of a fluid using time domain analysis and frequency domain analysis to identify individual volume fraction constituents within a pipe on a real time basis and to measure the volume of the individual volume fraction constituents flowing through the pipe on a real time basis.

Abstract: An apparatus for identifying and measuring volume fraction constituents of a fluid using time domain analysis and frequency domain analysis to identify individual volume fraction constituents within a pipe on a real time basis and to measure the volume of the individual volume fraction constituents flowing through the pipe on a real time basis.

Abstract: According to one aspect, a system for testing an engine includes a dynamometer coupled to the engine. The dynamometer is responsive to a control signal. The system further includes a controller that derives the control signal from an engine operation parameter.

Abstract: When machining a workpiece by a machine tool by cutting, a cutting fluid is sprayed to a workpiece machining region. Above a surface of the cutting fluid in a cutting fluid tank, an odor sensor for detecting the odor emitted by the cutting fluid is disposed in the space defined the surface of the cutting fluid in the cutting fluid tank and a cover. Based on the odor detected by the odor sensor, deterioration of the cutting fluid is determined.

Abstract: An improved evaporation pan assembly and measurement method comprising adjustable buoyancy floats attached to an outer wave-guard that surrounds the evaporation pan. An anchor system preferably restricts lateral movement while allowing for vertical movement with changing fluid levels. Preferably, the evaporation pan assembly further comprises a baffle system within the evaporation pan to prevent sloshing of the fluid within the pan. The height of the body of fluid being evaluated is preferably measured with a guided float assembly within the evaporation pan.

Abstract: A biological fluid collection device that is adapted to receive a blood sample having a cellular portion and a plasma portion is disclosed. After collection of the blood sample, the plasma portion is separated from the cellular portion. After separation, the biological fluid collection device is able to transfer the plasma portion of the blood sample to a point-of-care testing device. The biological fluid collection device also provides a closed sampling and transfer system that reduces the exposure of a blood sample and provides fast mixing of a blood sample with a sample stabilizer. The biological fluid collection device is engageable with a biological fluid testing device for closed transfer of a portion of the plasma portion from the biological fluid collection device to the biological fluid testing device. The biological fluid testing device is adapted to receive the plasma portion to analyze the blood sample.

Abstract: T-peel test fixture for a vertical test machine. The test fixture includes an upper grip for holding an arm of a peel specimen that has a hangover tail and a lower grip for holding the other arm of the peel specimen. A first rack is connected to a support hanger. The upper grip and the first rack move in a vertical direction at a selected speed. A second rack including a support plate located to support the specimen hangover tail is driven in the vertical direction at one-half the selected speed. The fixture thus supports the hangover tail so that symmetry is maintained with respect to gravity to suppress the interfering effect of gravity on a peel test.