The present invention provides devices, systems and methods for installing water potential detectors in plants stems, measuring the water potential in the plants, and evaluating crop irrigation conditions.

The present invention provides devices, systems and methods for installing water potential detectors in plants stems, measuring the water potential in the plants, and evaluating crop irrigation conditions.

Diagnostic and screening technologies, therapy recommendations, and computer systems based on red blood cell membrane permeability characteristics are provided herein.

A capacitive matrix suction sensor measures the matrix suction exhibited by a porous medium surrounding the sensor. The sensor is constructed from a capacitive moisture probe having a sensing body, and a jacket that encases the sensing body. The jacket is made of a hydrophilic, non-conductive, porous (HN-CP) material. In operation, the sensing body is energized, and the voltage produced is read. The matrix suction exhibited by the HN-CP jacket material is then computed based on the voltage, and an indicator of the current value of the matrix suction exhibited by the porous medium is established based on the matrix suction computed for the HN-CP jacket material.

A capacitive matrix suction sensor measures the matrix suction exhibited by a porous medium surrounding the sensor. The sensor is constructed from a capacitive moisture probe having a sensing body, and a jacket that encases the sensing body. The jacket is made of a hydrophilic, non-conductive, porous (HN-CP) material. In operation, the sensing body is energized, and the voltage produced is read. The matrix suction exhibited by the HN-CP jacket material is then computed based on the voltage, and an indicator of the current value of the matrix suction exhibited by the porous medium is established based on the matrix suction computed for the HN-CP jacket material.

A TDR matrix suction sensor measures the matrix suction exhibited by a porous medium surrounding the sensor. The sensor is constructed from a TDR matrix suction sensor probe, which includes two or more elongated conductors and a jacket that encases the conductors. The jacket is made of a hydrophilic, non-conductive, porous (HN-CP) material. In operation, a pulse delay time is computed for an electrical pulse injected into the proximal end of the conductors and reflected when reaching their distal ends. The pulse delay time and a delay-to-matrix suction profile of the HN-CP jacket material are used to compute the matrix suction exhibited by the probe jackets. An indicator of the current value of the matrix suction exhibited by the porous medium is then established based on the matrix suction computed for the HN-CP jackets.

A TDR matrix suction sensor measures the matrix suction exhibited by a porous medium surrounding the sensor. The sensor is constructed from a TDR matrix suction sensor probe, which includes two or more elongated conductors and a jacket that encases the conductors. The jacket is made of a hydrophilic, non-conductive, porous (HN-CP) material. In operation, a pulse delay time is computed for an electrical pulse injected into the proximal end of the conductors and reflected when reaching their distal ends. The pulse delay time and a delay-to-matrix suction profile of the HN-CP jacket material are used to compute the matrix suction exhibited by the probe jackets. An indicator of the current value of the matrix suction exhibited by the porous medium is then established based on the matrix suction computed for the HN-CP jackets.

Provided is a method for detecting defects of separation membrane element, and an apparatus for detecting defects of a separation membrane element.

The present invention discloses a simulation device for a preferential flow of a fissured-porous dual-permeability media and an experimental method, and belongs to the technical field of geological engineering. The simulation device comprises a support. The support is detachably connected with a transparent container. The interior of the transparent container is filled with a fissured-porous dual-permeability media experimental model. The top of the transparent container is open. A spraying device is arranged above the transparent container. Liquid rapid outflow ports are formed in the bottom of the transparent container and are connected with a liquid collection device. The present invention further discloses an experimental method of the simulation device and a manufacturing method of the fissured-porous dual-permeability media experimental model. The simulation device of the present invention can highlight and enhance the preferential flow experiment effect.

Disclosed is a system for measuring mass transfer in a membrane and solutions. The system includes: a membrane module 10 including a feed solution reservoir 11 accommodating a feed solution f, a draw solution reservoir 13 accommodating a draw solution d whose osmotic concentration is higher than that of the feed solution f, and a holder 15 supporting a semipermeable membrane m arranged between the feed solution reservoir 11 and the draw solution reservoir 13 and whose performance is to be measured; a feed solution storage tank 20 storing the feed solution f; and a feed solution supply pump 30 supplying the feed solution f from the feed solution storage tank 20 to the feed solution reservoir 11 at a fixed flow rate corresponding to a water flux WF across the membrane m such that the water flux WF is maintained constant.