Methods, systems, and apparatus for analytical wettability assessment of fracturing proppants for improving fluid recovery are disclosed. Embodiments include determining, for a proppant sample, a first value related to an oil-wet index of the proppant sample. Embodiments further include determining, for the proppant sample, a second value related to a water-wet index of the proppant sample. Embodiments further include determining, for the proppant sample based on the first value and the second value, a third value related to a wettability index of the proppant sample. Embodiments further include determining, based on the third value, a wetting characteristic of the proppant sample. Other embodiments may be described.

Disclosed is a method, device, and system for testing the static contact angle of reagent asphalt, the method includes the following steps: acquiring a side image of a stable droplet formed by a test reagent on asphalt surface, and determining the position of a baseline in the side image; cropping the side image to obtain a droplet image, and extracting droplet contour points in the droplet image; screening out effective contour points corresponding to contours of the two sides of the droplet from the droplet contour points; performing cubic polynomial fitting on the effective contour points to obtain curve function of contour curves on both sides; calculating contact angle value from the curve function and the position of the baseline. The beneficial effects of this disclosure are: this disclosure reduces the difficulty of fitting of the droplet contour and thus improves the calculation precision of the contact angle.

Disclosed is a method, device, and system for testing the static contact angle of reagent asphalt, the method includes the following steps: acquiring a side image of a stable droplet formed by a test reagent on asphalt surface, and determining the position of a baseline in the side image; cropping the side image to obtain a droplet image, and extracting droplet contour points in the droplet image; screening out effective contour points corresponding to contours of the two sides of the droplet from the droplet contour points; performing cubic polynomial fitting on the effective contour points to obtain curve function of contour curves on both sides; calculating contact angle value from the curve function and the position of the baseline. The beneficial effects of this disclosure are: this disclosure reduces the difficulty of fitting of the droplet contour and thus improves the calculation precision of the contact angle.

The present invention includes a needle connected to a urine container; a side of the needle is connected to the urine container, and the other side is a blunt end; a holder is mounted on a base, and the urine container is detachably mounted on the holder; a camera unit is mounted on the base, aiming at the blunt end; a light source is mounted on the base, emitting a detection beam; a processor unit is electrically connected to the camera unit; wherein when a sample urine in the urine container drips through the needle and forms a drop of urine, the detection beam passes through the drop of urine and travels into the camera unit; the processor unit receives an image of the drop of urine through the camera unit, and the processor unit instantly calculates a protein concentration of the drop of urine from the image.

The present invention includes a needle connected to a urine container; a side of the needle is connected to the urine container, and the other side is a blunt end; a holder is mounted on a base, and the urine container is detachably mounted on the holder; a camera unit is mounted on the base, aiming at the blunt end; a light source is mounted on the base, emitting a detection beam; a processor unit is electrically connected to the camera unit; wherein when a sample urine in the urine container drips through the needle and forms a drop of urine, the detection beam passes through the drop of urine and travels into the camera unit; the processor unit receives an image of the drop of urine through the camera unit, and the processor unit instantly calculates a protein concentration of the drop of urine from the image.

An evaluation method for evaluating a spot generated on a substrate that has been treated with a repellent, the method includes an acquiring step of acquiring image data including data on the substrate that has been treated with the repellent to be evaluated, a spot-detecting step of creating a smoothed image from the image data, binarizing the smoothed image and detecting a region of a spot generated on the substrate, and a spot-evaluating step of determining an evaluation value of the spot according to an area of the region of the spot detected. Also disclosed is a repellent evaluation device including an acquire, a classifier, a detector and an evaluator.

Provided are a physical property measurement method, a physical property measurement device, and a probe that can simply measure physical properties of a surface layer portion of an object. A physical property measurement method includes a step of bringing a probe into contact with a surface layer portion of a liquid or gel-like object and maintaining a contact state, a step of measuring a height of the object rising along the probe in contact with the object, and a step of calculating viscous properties or elastic properties of the surface layer portion of the object using the measured height of the object rising along the probe.

Provided are a physical property measurement method, a physical property measurement device, and a probe that can simply measure physical properties of a surface layer portion of an object. A physical property measurement method includes a step of bringing a probe into contact with a surface layer portion of a liquid or gel-like object and maintaining a contact state, a step of measuring a height of the object rising along the probe in contact with the object, and a step of calculating viscous properties or elastic properties of the surface layer portion of the object using the measured height of the object rising along the probe.

A device for detecting a geometry of a drop arranged on a sample surface includes a metering apparatus comprising a liquid reservoir and an outlet opening and a plurality of light sources configured to direct light onto a surface of the drop of liquid. A camera is configured to detect a reflection of the light from the surface of the drop of liquid. The device includes a housing including a recess that forms a cavity that is configured to be separated from external surroundings when the housing is arranged on the sample surface. The plurality of light sources are arranged in the cavity and cover a solid angle of at least π/2 sr when viewed from a point on the sample surface. At least a portion of the metering apparatus is positioned inside the cavity.

The present invention addresses the problem of evaluating the hydrophobicity of a powder. According to the present invention, a powder is charged into a mixed solvent composed of a lipophilic solvent and a hydrophilic solvent, the voltage rate R of the mixed solvent is measured at predetermined time intervals while adding a lipophilic solvent to the mixed solvent charged with the powder, a parameter x correlating with the concentration of powder is defined for an arbitrary voltage rate R, a continuous function HP(x) of the ratio of a lipophilic solvent corresponding to x is defined, and HP(x) for required x is set as a representative value of a lipophilic solvent ratio distribution and used as an index of hydrophobicity.