A floating vessel with a filtration and testing device integral thereon, for simultaneously performing cleaning of fluid used in the oil and natural gas industry for completions, workovers, and commissioning of wells while simultaneously pressure testing of two separate groups of pressurized equipment using fluid cleaned by the filtration and testing device. The floating vessel having a hull with a support structure mounted thereto which contains a cleaning cycle assembly and a pressure testing cycle assembly connected in parallel to a controller for cleaning fluid and regulating pressure by comparing fluid pressures to preset limits. The controller regulates cleaning of first and second dirty hydraulic fluids and regulates pressure of cleaned hydraulic fluids and secondary fluids for pressure testing of the two different groups of pressurized equipment simultaneously.

The present invention provides systems, devices, signaling polynucleotides (SPNs), detection agents and methods for detecting the presence and/or absence of one or more allergens in a sample particularly a food sample. The detection system includes a separate sampler, at least one disposable detection vessel for receiving and processing a test sample and a detection device for measuring a fluorescent signal. SPNs derived from aptamer that bind allergens are provided as detection agents. SPNs have a single open structure, and are labeled with a fluorophore. Changes in fluorescence polarization of SPNs upon the binding of allergens are measured to calculate the allergen content in a sample.

A floating vessel with a filtration and testing device integral thereon, for simultaneously performing cleaning of fluid used in the oil and natural gas industry for completions, workovers, and commissioning of wells while simultaneously pressure testing of two separate groups of pressurized equipment using fluid cleaned by the filtration and testing device. The floating vessel having a hull with a support structure mounted thereto which contains a cleaning cycle assembly and a pressure testing cycle assembly connected in parallel to a controller for cleaning fluid and regulating pressure by comparing fluid pressures to preset limits. The controller regulates cleaning of first and second dirty hydraulic fluids and regulates pressure of cleaned hydraulic fluids and secondary fluids for pressure testing of the two different groups of pressurized equipment simultaneously.

An autosampler includes a pressure release operation unit for performing, by controlling operation of a needle drive mechanism and a switching mechanism, before a tip end of a needle is pulled out from an injection port following a state where a sampling channel is disposed between a feeding device and an analytical column, a pressure release operation of switching the switching mechanism in such a way that the sampling channel is not disposed between the feeding device and the analytical column and a system including the sampling channel is made an open system, and of performing standby until a pressure inside the sampling channel is returned to atmospheric pressure.

A sampling container apparatus for a remotely operated vehicle (ROV) is disclosed. An example sampling container includes a tank configured to hold a sample collected from an underwater environment. The tank includes at least one opening that contains a plunger therein. The plunger includes a contraction or retraction mechanism that pulls the plunger into the tank causing the plunger to actuate from an open position to a closed position. The plunger is retained in the open position by a retainer plate. To enable the plunger to actuate to the closed position, the tank is rotated relative to the retainer plate, causing the plunger to traverse a travel channel in the retainer plate. The travel channel includes a plunger window, which when reached by the plunger, enables the plunger to be pulled through the retainer plate, thereby sealing the opening of the tank and preserving the collected sample.

A sampling device is provided, including: a syringe barrel having an opening and a holding portion; a plunger body having a protruding wall and disposed in the syringe barrel through the opening, where the protruding wall has a first recessed portion; a spring disposed around the plunger body; and a fastening assembly having an engaging structure for engaging the fastening assembly with the holding portion, a groove rail for receiving the protruding wall of the plunger body and a fastening portion for limiting displacement of the plunger body. A semi-automatic sample feeding device is further provided and includes the sampling device and a flow control device, and a test paper detection system is also provided and includes the semi-automatic sample feeding device and a test paper device. The test paper detection system is able to stably introduce samples, suitable for large-volume samples, which meets the needs of point-of-care applications.

Embodiments of the present invention relate to a method of detecting, identifying, and quantifying microbes in a wastewater treatment process or facility. The invention identifies the microbes by manipulation of their DNA. Microbes are collected, and a portion of the DNA sequence of a particular gene that is found in microbes is amplified. The amplified DNA sequence contains a highly variable region that can be used identify the microbe. Each amplified DNA sequence is matched against known sequences in various microbes. The identity of the microbes present in a sample can be determined and, sometimes, their biological functions too. Also, the relative quantities of the microbes, compared to the total microbial pool, can be determined. With this information, harmful microbes can be identified and targeted for removal from the wastewater, and beneficial microbes can be cultivated as desired.

The present invention relates to a method of detecting contaminants of microbial origin in a water distribution system and, more particularly, to a method of identifying the microbes contaminating the system, by manipulation of the DNA of the microbes. The microbes are collected, and a portion of the DNA sequence of a particular gene that is found in microbes is amplified. The portion of the DNA sequence that is amplified contains a highly variable region and the identity of the microbe can be determined by that DNA sequence. Each amplified DNA sequences is matched against the known sequences of corresponding regions in the DNA sequences of various microbes. Thus, the spectrum of microbial contaminants, and their relative quantities, can be identified in the liquid collected from different locations of the water distribution system.

This disclosure is directed to a device and a system for aspirating and dispensing a target analyte, target material, or fluid. A picker may aspirate and dispense the desired material by introducing a pressure gradient. The picker may include a hydraulic fluid to hydraulically couple at least two components, such as a moveable pump component and a cannula.

A liquid sampling method in a flow monitoring system including a sampling section having a needle for performing sampling of a liquid, an analysis section that performs analysis of the liquid sampled by the sampling section, and a fluid supply section that supplies a sample fluid in a state of gas-liquid two-phase flow containing a gas phase and a liquid phase with the sample remaining in the state of gas-liquid two-phase flow. The liquid sampling method includes: a storage step of storing, in the storage container, a liquid phase contained in the sample fluid; a separation step of separating, from a liquid phase, a gas phase contained in the liquid phase stored in the storage container; and an injection step of suctioning, as a sample, the liquid phase stored in the storage container from a distal end of the needle after the separation step and injecting a predetermined amount of the sample into the analysis section through the injection port.