A pinch valve including a tubular valve member, which extends in a valve housing between two connecting pieces having a fluid port each and which has a flexible circumferential wall, and further including a pressurisation chamber, which is arranged in the valve housing around the circumferential wall of the valve member and which can be pressurised by compressed air which can act on the circumferential wall of the valve member as a pinching means in order to pinch it for changing the flow cross-section made available by the valve member for the passage of process medium, and further including a leakage detection device for detecting a leakage causing the escape of process medium at the pinch valve.

A system and method for remote detection, marking and/or sealing leaks in pipe or duct networks are provided. Aerosolized sealant particles that have a surface tackiness that diminishes over time are introduced into the pipe interior. A pressure differential is created and the micron scale particles adhere to the leak edges and to other particles as they are brought to the leaks and then leave the gas streamlines. Control of particle size, drying rate and particle residence time in the pipe interior allows control over the treatment area so that leaks are sealed in the pipes without sealing purposeful openings such as pilot lights or gas valves. This control also produces seals in duct systems with minimal tack at the time the duct systems are returned to service. Particles that do not participate in the formation of a seal can be collected or flushed through the system.

A leak detection method tests a tubing collar of wellbore tubing. The leak detection method can include the steps of introducing tracer gas under pressure to a tubing collar, introducing water to the tubing collar, detecting the tracer gas from a sample obtained outside the tubing collar, controlling a water system, a gas system, and the gas analysis system, flowing the tracer gas under pressure to the tubing collar and then the water to the tubing collar sequentially and allow the sample to flow to a gas analyzer, initially pressurizing the tubing collar with the tracer gas to a first pressure, pressurized the tracer gas to a second pressure, obtaining the sample from outside the tubing collar, and analyzing the sample for the tracer gas by the gas analyzer, and providing an alert that indicates a leak is present in the tubing collar.

A method for detecting leaks in pipelines, particularly those transporting natural gas is disclosed. Leak sensitive particles are added either as soluble particles or in a nitrogen atmosphere which will transmit signals to an appropriate sensor when a leak condition is detected. The sensors can be located along the length of the pipeline or in a pig that will be transported through the pipeline along with the leak sensitive particles.

A leak detection method tests a tubing collar of wellbore tubing. The leak detection method can include the steps of introducing tracer gas under pressure to a tubing collar, introducing water to the tubing collar, detecting the tracer gas from a sample obtained outside the tubing collar, controlling a water system, a gas system, and the gas analysis system, flowing the tracer gas under pressure to the tubing collar and then the water to the tubing collar sequentially and allow the sample to flow to a gas analyzer, initially pressurizing the tubing collar with the tracer gas to a first pressure, pressurized the tracer gas to a second pressure, obtaining the sample from outside the tubing collar, and analyzing the sample for the tracer gas by the gas analyzer, and providing an alert that indicates a leak is present in the tubing collar.

A device (1) includes a pumping device (7) and a control unit (70) and is configured to test the operational capability of a gas guide element (3) in a gas-measuring system (11) that includes a gas sensor (5). The control unit (70) carries out steps with two operating states including delivering a test gas (91) by the pumping device (7) through the gas guide element (3) to a remote measuring location (80) and is subsequently delivered from the measuring location (80) to the gas sensor (5). Measured values of a gas concentration are detected by the gas sensor (5) during the delivery from the remotely located measuring location (80) to the gas sensor (5) and analyzed to determine whether changes occurring in the detected gas concentration during the delivery from the measuring location (80) to the gas sensor (5) indicate whether the gas guide element (3) is capable of operating.

A dual seal termination assembly having a first termination body; and a sleeve at least partially surrounding the first termination body; primary and secondary seals adapted to be fitted between the first termination body and the sleeve; a test port in the first termination body to supply test fluid to a point between the primary and secondary seals of the first termination body; the test port being adapted to receive test fluid at a predetermined pressure, such that a pressure difference is created between the point between the primary and secondary seals and a point on the other side of the primary seal and a point on the other side of the secondary seal.

A leak detection system for testing a tubing collar of wellbore tubing. The leak detection system can have a test unit with a control system for simultaneously controlling a gas system, a water system, a gas analysis system, and a tubing collar testing tool. The tubing collar testing tool is initially pressurized with tracer gas to a first pressure and then pressurized using water to a second pressure. A sample is taken from proximate to the tubing collar while the tubing collar testing tool is at the second pressure, the sample is analyzed for tracer gas, and if tracer gas is present in the sample in ppm of greater than or equal to 1 ppm, then the control system alerts that a leak is present in the tubing collar.

The present application provides a hazardous gas detection system to determine hazardous gas concentrations and/or temperatures within a flow of exhaust air in an exhaust duct of a gas turbine compartment. The hazardous gas detection system may include one or more sensors positioned within or in communication with the exhaust duct and a static mixer positioned upstream of the one or more sensors to promote mixing of the flow of exhaust air.

There is an apparatus and method of testing for leaks in a contained system with an interior containing fluids. A tracer gas is introduced into the interior of the contained system. The apparatus and method sense for the presence of the tracer gas outside the contained system using a plurality of sensors located on an unmanned aerial vehicle.