A liquid sampler for use in sampling the liquid in a well. The sampler has a tube for containing the sample and an inlet at the bottom and an outlet at the top. An inlet check valve is located at the inlet which has a door configured autonomously to move between open and closed configurations in response to fluid flow through the inlet. In the open configuration, the door is aligned with the axis of the tube to allow fluid to flow into the tube through the inlet from below, and in the closed configuration, the door is positioned transverse to the axis of the tube to block fluid flow from the tube out through the inlet thereby retaining fluid within the tube as the sampler is raised up.

The invention relates to a logging device for measuring pressure into an underground formation, comprising at least one formation pressure sensor which comprises a tool body part and a probe mounted on the tool body part, said probe comprising a fluid withdrawal line. The tool body part comprises a flow line connected to the fluid withdrawal line, at least one test chamber connected to the flow line and an at least one respective closing system, and at least one pressure sensor connected to the flow line. The probe further comprises a rupture chamber and a pressure sensor connected to the fluid withdrawal line and, a first isolating valve on the fluid withdrawal line downstream of the rupture chamber and upstream to the flow line adapted to isolate the rupture chamber from the flow line when the rupture chamber is actuated.

A method may comprise forming a data matrix, extracting chromatographs of a mud filtrate and a formation fluid, extracting concentration profiles of the mud filtrate and the formation fluid, and decomposing a data set on an information handling machine using a bilinear model. A system may comprise a downhole fluid sampling tool and an information handling tool. The downhole fluid sampling tool may comprise one or more multi-chamber sections, one or more fluid module sections, one or more gas chromatographers, wherein the one or more gas chromatographers are disposed in the one or more fluid module sections, and an information handling system.

The present invention relates to a press-type water sampling device, and to a press-type water sampling device comprising: a water sampling bottle having opened upper and lower parts; and a bumper support, which has a top cap and a bottom cap for blocking the opened upper and lower parts of the water sampling bottle, is formed into a frame having a shape that encompasses the water sampling bottle, and enables the water sampling bottle to be vertically moveable. The present invention enables the water sampling bottle to be separated from the bumper support so as to prevent breakage and water leakage of the water sampling bottle and facilitate cleaning of the water sampling bottle, smoothly collects water at the upper and lower parts of the water sampling bottle since the water sampling bottle is formed at predetermined gaps from the top cap and the bottom cap at the center portion of the bumper support, and can improve accuracy and reliability of a sample water analysis since the water sampling device is formed in an integrated sliding structure, in which the top cap fixed to the bumper support moves down by a messenger moving down when the water sampling device reaches a water depth of a target location and the water sampling bottle is sealed by the top cap and the bottom cap.

Embodiments include a core plug holding apparatus including a tubular member configured to be inserted into a side pocket of a mandrel, the tubular member having an uphole end, a downhole end, and a core plug section located between the uphole end and the downhole end, wherein the core plug section is used for housing of one or more core plug samples and wherein tubular member includes one or more orifices formed in the core plug section. Embodiments include a method of sampling a well including deploying one or more core plug holding apparatuses into one or more side pocket mandrels of a completion; holding the one or more core plug holding apparatuses in the one or more side pocket mandrels for an incubation period; and retrieving the one or more core plug holding apparatuses from the one or more side pocket mandrels after the passage of the incubation period.

Processes for injection of fluids into a wellbore via drill pipe. In some embodiments, the process can include positioning a downhole apparatus on a drill pipe. The process can also include placing the downhole apparatus at a desired station depth within a wellbore. The process can also include attaching a cable to the downhole apparatus from an up-hole environment. The process can also include setting at least one packer to seal a space between at least a portion of the downhole apparatus and an inner surface of the wellbore. The process can also include introducing a fluid to the downhole apparatus through the drill pipe and using a pump to inject at least a portion of the fluid into a geological stratum.

A method for sampling and measuring a hydrogen concentration of a gas in a subsurface formation includes boring a hole in the subsurface formation using a drill string. A gas probe is coupled to a lower end of the drill string. The method also includes opening the gas probe to collect the gas from the subsurface formation. The method also includes drawing the gas up through the drill string after the gas probe is opened. The method also includes measuring the hydrogen concentration of the gas after the gas is drawn up.

Processes for injection of fluids into a wellbore via drill pipe. In some embodiments, the process can include positioning a downhole apparatus on a drill pipe. The process can also include placing the downhole apparatus at a desired station depth within a wellbore. The process can also include attaching a cable to the downhole apparatus from an up-hole environment. The process can also include setting at least one packer to seal a space between at least a portion of the downhole apparatus and an inner surface of the wellbore. The process can also include introducing a fluid to the downhole apparatus through the drill pipe and using a pump to inject at least a portion of the fluid into a geological stratum.

A fluid container reloading tool for a downhole fluid sampling tool is described. The reloading tool includes an elongated cylindrical body. The body may include a bottom opening sized to engage with a fluid sampling tool deployed within a borehole. A cache of empty fluid containers may be included within the body. A piston may be coupled to at least one of the fluid containers in the cache of fluid containers. The piston may be used to transfer the cache of fluid containers into the fluid sampling tool. The reloading tool may also include a pump in fluid communication with the piston.

A well completion system includes tubing, and packers that seal the annulus of the well outside the tubing. The packers are spaced to define voids in the annulus that are substantially free from hydrostatic pressure. Also included are hollow sleeve valves having upper and lower sealing elements, and that have closed and open positions. Each sleeve valve is positioned within the tubing at a depth corresponding to a void in the annulus. Ports extend through the sleeve valve and tubing, so that when the sleeve valve is closed, the port is closed, and when the sleeve valve is open, the port is open. Also included is a sampling tool having top and bottom sealing elements, the bottom sealing element for engaging the lower sealing element of a sleeve valve, and the top sealing element for engaging the upper sealing element of the sleeve valve when the sleeve valve is open.