A transient pressure event detection system and method for a pipeline network are disclosed. The system includes a data repository encoding route data on the pipeline network, a data receiver configured to receive timestamped pipeline sensor data from each of a plurality of sensors that are spaced apart in the pipeline network, use the sensor data received to identify a transient pressure event occurrence and the timestamp for the event occurrence's arrival time, determine routes in the pipeline network between the sensors, for each route determine a potential source location in the pipeline network for the transient pressure event, perform a simulated transient event for each potential source location and determine a modelled arrival time of a transient corresponding to the event, compare the timestamp of the event occurrence with the modelled arrival time and select the potential source location corresponding to the closest modelled arrival time.

A transient pressure event detection system and method for a pipeline network are disclosed. The system includes a data repository encoding route data on the pipeline network, a data receiver configured to receive timestamped pipeline sensor data from each of a plurality of sensors that are spaced apart in the pipeline network, use the sensor data received to identify a transient pressure event occurrence and the timestamp for the event occurrence's arrival time, determine routes in the pipeline network between the sensors, for each route determine a potential source location in the pipeline network for the transient pressure event, perform a simulated transient event for each potential source location and determine a modelled arrival time of a transient corresponding to the event, compare the timestamp of the event occurrence with the modelled arrival time and select the potential source location corresponding to the closest modelled arrival time.

A pressure sensor is provided and includes housings that are formed to have a tubular shape; a pressure measurement member that is accommodated inside the housing and includes a piezoelectric substance; a diaphragm that has a flexible plate-shaped part fixed to a tip side of the housings and a transfer part protruding on an axis to transfer a load to the pressure measurement member; and a heat shielding plate that is held by the housings such that the diaphragm is covered, comes into contact with the diaphragm in a central region corresponding to the transfer part, and defines an annular void between the heat shielding plate and the diaphragm in a region other than the central region.

A pressure sensor is provided and includes housings that are formed to have a tubular shape; a pressure measurement member that is accommodated inside the housing and includes a piezoelectric substance; a diaphragm that has a flexible plate-shaped part fixed to a tip side of the housings and a transfer part protruding on an axis to transfer a load to the pressure measurement member; and a heat shielding plate that is held by the housings such that the diaphragm is covered, comes into contact with the diaphragm in a central region corresponding to the transfer part, and defines an annular void between the heat shielding plate and the diaphragm in a region other than the central region.

A detection system adapted for a liquid-cooling system includes a pressurizing device and at least one pressure sensor, the pressurizing device is configured to connect to and to pressure the liquid-cooling system, the pressure sensor is configured to measure a transient pressure response in response to detecting residual air bubbles in the liquid-cooling system.

A detection system adapted for a liquid-cooling system includes a pressurizing device and at least one pressure sensor, the pressurizing device is configured to connect to and to pressure the liquid-cooling system, the pressure sensor is configured to measure a transient pressure response in response to detecting residual air bubbles in the liquid-cooling system.

A sensor apparatus having a crimped housing and a method of assembling a sensor apparatus having a crimped housing are disclosed. The sensor apparatus comprises a sensor port, a tubular thin-walled housing coupled to the sensor port and comprising a crimping portion, a base portion, and a step feature that is formed in the housing, the step feature partitioning the crimping portion from the base portion, sensor components disposed within the interior of the base portion of the housing, and an electrical connector coupled the housing and comprising leads electrically coupled to the sensor components and a connector flange, wherein a rim of the crimping portion of the housing is crimped onto the connector flange such that the electrical connector is retained in the housing. Dimples, created by protrusions on the crimp dye, on both housing rim and connector flange assure the housing rim hold the connector in rotation direction.

A sensor apparatus having a crimped housing and a method of assembling a sensor apparatus having a crimped housing are disclosed. The sensor apparatus comprises a sensor port, a tubular thin-walled housing coupled to the sensor port and comprising a crimping portion, a base portion, and a step feature that is formed in the housing, the step feature partitioning the crimping portion from the base portion, sensor components disposed within the interior of the base portion of the housing, and an electrical connector coupled the housing and comprising leads electrically coupled to the sensor components and a connector flange, wherein a rim of the crimping portion of the housing is crimped onto the connector flange such that the electrical connector is retained in the housing. Dimples, created by protrusions on the crimp dye, on both housing rim and connector flange assure the housing rim hold the connector in rotation direction.

A pressure measurement tool secured to a rod arranged across a duct of an engine of an aircraft. A sheath includes two walls which bound a space receiving the rod, the space communicating with the outside by an opening extending over the length of the sheath, the sheath having a bay extending over the length of the sheath and cavities distributed over the sheath. For each cavity, an air inlet including a passage opens at one end into the cavity another end into the duct. A printed circuit board runs along the bay. For each passage, a pressure sensor in the corresponding cavity faces the passage and is on the printed circuit board. A unit is provided for processing and/or recording the data transmitted by the pressure sensors. It is thus easy to install and makes it possible to take a large number of measurements in the secondary duct.

A pressure sensor includes: a housing having a tubular shape, and including a front end including an opening; a diaphragm that is disposed to close the opening, and is structured to deform depending on a pressure exerted on a front side of the diaphragm, and includes a hole extending rearwardly from a front end face of the diaphragm; a sensor element structured to output a signal varying depending on an amount of the deformation of the diaphragm; and a heat receiver including a first portion and a second portion. The first portion is disposed in the hole of the diaphragm, and is joined with an inner periphery of the diaphragm defining the hole. The second portion is formed integrally with the first portion, and is disposed adjacent to a front end of the first portion, and is structured to cover the front end face of the diaphragm.