Abstract: A system and method for the remote measurement of physical parameters, comprising an optical fiber cable adapted to measure a physical parameter in a remote location, a conduit extending to the remote location and configured to accommodate the optical fiber cable, a cable installation mechanism configured to install the optical fiber cable through the conduit and place the optical fiber cable at the remote location, the cable installation mechanism including means for propelling a fluid along the conduit, and a seal between the optical fiber cable and the conduit.

Abstract: Apparatus and methods for sensing one or more physical parameters at a remote location while minimizing or eliminating contact between reservoir fluids and the like at the remote location and the sensor used to sense the physical parameters. In one example arrangement, the apparatus includes a tubing containing a communication cable and a sensor in communication with the cable, the sensor being located within the tubing proximate the remote location. The apparatus is configured to impose a barrier of a fluid between the sensor and the environment at the remote location. A fluid barrier reservoir containing the barrier fluid is also provided in some example arrangements.

Abstract: The present invention relates to protecting optical devices, such as an optical fibre sensor connected in series with a cable, from a hostile environment, such as encountered when making measurements in oil and gas wells. A liquid can protect the optical device. Packaging an optical fibre sensor inside a capillary containing the liquid can provide this protection. The liquid can be liquid metal, gel, inks, grease or oil. The liquid metal can be gallium or indium, or an alloy that includes indium and/or gallium. The grease can contain lithium, molybdenum, or synthetics, or be synthetic grease. The liquid can contain other components such as a scavenger or getter for molecules and/or ions.

Abstract: Apparatus for the remote deployment of one or more valves (1), comprising channel means (2) through which the valve (1) will be deployed, channel location means (3) in which the valve (1) will sit, seal means (4) to seal between the valve (1) and the channel means (2), valve location means to seat the valve (1) onto the channel location means (3), and valve means (6) to control the passage of fluid.

Abstract: Apparatus for multiplexing fiber-optic sensing interferometers, which apparatus comprises at least one optical source, a plurality of matched interferometers connected to the optical source and each containing a phase modulator having a unique identifying characteristic, a network of fiber-optic sensing interferometers each containing a path-length difference, at least one detector, and interconnections provided between the matched interferometers, the network of fiber-optic sensing interferometers and the detector, the path length difference in each fiber-optic sensing interferometer being approximately matched to a path length difference in its associated matched interferometer, and the interconnection means between the matched interferometers, the network of fiber-optic sensing interferometers and the detector being such that there is no more than one signal on the detector having the same unique identifying characteristic associated with one of the phase modulators.

Abstract: An optical fibre sensor element (1) comprising an optical fibre (2), a protective coating on the optical fibre, and shape constraining means (3) which causes the optical fibre (2) to follow a path which extends in a generally longitudinal direction and which is such that the coated optical fibre (3) is not perfectly straight and it is impossible to draw an imaginary straight line in any direction which remains inside the coated optical fibre (3) along the entire length of the optical fibre sensor element (1).

Abstract: Apparatus comprising a source (1) of electromagnetic radiation; a sensing network (5) which comprises a plurality of sensing interferometers (10) each of which includes a wavelength filter for selecting a band of wavelengths (11) of electromagnetic radiation provided by the source (1) and is suitable for converting the magnitude of one or more physical parameters to a change in a sensor optical path length delay; a reference interferometer (7) for selecting a reference optical path delay; a wavelength selection device (8) for selecting one or more of the band of wavelengths (11) filtered by one or more of the sensing interferometers (10); and a detector (9) for converting the electromagnetic radiation selected by the wavelength selection device (8) to an electrical signal.

Abstract: The invention is an apparatus for measuring pressure, which comprises a pressure communicating device (3) for location at a point (4) at which pressure is to be measured, a primary tube (1) containing a fluid for linking the pressure communicating device (3) to a control point (9) where the pressure information is required, a sealing device for sealing the primary tube (1) so as to form a closed system when the pressure communicating device (3) is closed, a pressure control device (6) for changing the pressure of the fluid within the primary tube (1), a volume measuring device (8) for measuring changes in the volume of the fluid within the primary tube (1) as the pressure of the fluid is varied, a pressure measuring device (7) for measuring the pressure of the fluid at some point within the fluid, and device remote from the control point (9), and a transmitter device for transmitting pressure information from the pressure measuring device to the control point (9).

Abstract: The invention is an apparatus for measuring pressure, which comprises a pressure communicating device (3) for location at a point (4) at which pressure is to be measured, a primary tube (1) containing a fluid for linking the pressure communicating device (3) to a control point (9) where the pressure information is required, a sealing device for sealing the primary tube (1) so as to form a closed system when the pressure communicating device (3) is closed, a pressure control device (6) for changing the pressure of the fluid within the primary tube (1), a volume measuring device (8) for measuring changes in the volume of the fluid within the primary tube (1) as the pressure of the fluid is varied, a pressure measuring device (7) for measuring the pressure of the fluid at some point within the fluid, and device remote from the control point (9), and a transmitter device for transmitting pressure information from the pressure measuring device to the control point (9).