Systems and processes for collecting and transporting a fluid sample. In one embodiment, the system can include at least one apparatus that can include a rotatable shaft, one or more other moving parts, and at least one fluid path containing a lubricating fluid. The system can also include at least one sample container and at least one unmanned aerial vehicle configured to transport the at least one sample container. The system can also include at least one valve that can be configured to open and discharge a sample of the lubricating fluid from the at least one fluid path into the at least one sample container. At least one unmanned aerial vehicle station can be configured to receive the at least one unmanned aerial vehicle. At least one retention and loading mechanism can be configured to move the at least one sample container.

The invention relates to a sample collection system for collecting sub-samples from a material stream, the system including a valve arrangement and a static cone splitter, and wherein the valve arrangement is arranged to enable operation of the static cone splitter to collect a non-biased sample of the material stream fed to the static cone splitter under first and second operational conditions, the first operational condition requiring the material stream to be at substantially atmospheric pressure and flowing at a minimum functional flow rate, and the second operational condition requiring the material stream to be pressurised above atmospheric pressure and at a flow rate higher than the minimum functional flow rate. The invention also relates to a static cone splitter for use with the system, together with a cone member for use with the static cone splitter.

An apparatus for in-line monitoring of nitrite content in a metalworking fluid is provided, the apparatus comprising a sample inlet for receiving a sample of a metalworking fluid, a dilution inlet for receiving a dilution fluid, a reagent inlet for receiving a photoactive reagent, a reaction volume for containing a sample mixture in fluid communication with the sample inlet, dilution inlet and reagent inlet, a photometer for monitoring the sample mixture, and a flow control system for controlling fluid flow in the apparatus, to: selectively introduce the sample, the dilution fluid and/or the photoactive reagent from the respective inlets to the reaction volume to form the sample mixture, retain the sample mixture in the reaction volume and discharge the sample mixture from the reaction volume.

A tint measuring device configured for being connected in series in a fluid flow circuit, the tint measuring device including at least one light source configured for emitting polychromatic light towards the fluid in a measurement zone; a light sensor configured for receiving a light signal either reflected from or transmitted through the fluid, the reflected or the transmitted light signal corresponding to the optical reflection or the optical transmission, respectively, by the fluid, of the polychromatic light emitted towards the fluid by the at least one light source; and a computing unit configured for performing a spectral analysis of the light signal received by the light sensor and for determining a chromatic signature of the fluid.

Apparatus and a method are provided for bringing a well-fluid sample in a well through a sampling device which is in fluid communication with the apparatus. The apparatus includes: a dump chamber for receiving the well-fluid sample; a first hydraulic piston arranged in a first cylinder housing; a second hydraulic piston arranged in a second cylinder housing; a piston rod for mechanically connecting the first piston to the second piston to form a piston arrangement, the dump chamber being defined by the first piston and a portion of the first cylinder housing. The apparatus further includes at least one holding device arranged to switch between an active position, in which the piston arrangement is held fixed against movement, and an inactive position, in which the piston arrangement is allowed a movement relative to the cylinder housings.

The invention provides a sampling arrangement (105) for sampling from a reactor (50), the sampling arrangement (105) comprising a gas inlet (110), a solvent inlet (120), a solvent compartment (130), one or more multiple-position valves (140), a sampling compartment (150), and an outlet, wherein in a first operational mode (10) the one or more multiple-position valves (140) are configured to provide: fluid contact between the solvent inlet (120) and the solvent compartment (130); fluid contact between the reactor (50) and the sampling compartment (150); and fluid separation between the solvent compartment (130) and the sampling compartment (150); and wherein in a second operational mode (20) the one or more multiple-position valves (140) are configured to provide: fluid contact between the gas inlet (110), the solvent compartment (130), the sampling compartment (150), and the outlet (160).

The invention relates to a device for detecting the quality of a liquid in a supply pipe, in particular for detecting the water quality in a water pipe, comprising a flow cell, which has an inlet opening, an outlet opening and at least one receiving device for the arrangement of at least one sensor. The inlet opening and the outlet opening are provided on a base surface of the flow cell intended for connection to the supply pipe, the inlet opening of the flow cell is connected to an intake pipe, the free end of which is intended for arrangement in the supply pipe, said intake pipe being received displaceably in its longitudinal direction in the flow cell or having an adjustable length, and a liquid pump of a flow of the liquid in the supply pipe is connected to the intake pipe.

A filtration module for filtering a process medium in a bioprocess including a process flow path for a process medium, a filter membrane coupled to the process flow path, and a sampling membrane coupled both to the process flow path and to a sampling flow path for extracting a sample from the process medium. The sampling flow path guides the extracted sample to a sampling outlet of the filtration module or to an analyzer integrated into the filtration module. A filtration assembly including the filtration module and an analyzer coupled to the sampling outlet of the filtration module. A method of sampling during a bioprocess including providing such a filtration module, urging a process medium through the process flow path, filtering the process medium by using the filter membrane, extracting a sample from the process medium by using the sampling membrane, and guiding the extracted sample to a sampling outlet.

A sample container cap (or “cap”) is configured to be used with a sample container for collecting fluids. The cap has a body and a shutter connected to the body. The cap has a (1) first, open position in which at least one body opening and at least one shutter opening are not aligned and the cap is configured so that fluid cannot readily pass therethrough, (2) second, open position in which the at least one body opening and the at least one shutter opening are aligned and the cap is configured so that fluid can pass therethrough, and (3) third, closed and locked position, in which the at least one shutter opening and the at least one body opening are not aligned and fluid cannot readily pass through the cap, and the cap is configured to not be moved to an open position.

A device for detecting particles in a lubricating oil of a machine, comprising a particle separator; at least one particle detector; a bypass conduit for the particle-concentrating oil, fluidly connected to an oil outlet of the particle separator, concentrating the particles; and wherein the at least one particle detector is operatively mounted on the bypass conduit so as to be able to detect particles in the bypass conduit.