A viscometer includes a viscosity sensor with a liquid flow channel and at least two pressure sensors positioned along the liquid flow channel and configured to measure a pressure drop of a liquid flowing through the liquid flow channel, and a dispensing mechanism configured to cause dispensing of a liquid from the syringe to the viscosity sensor at a known flow rate. The dispensing mechanism and the viscosity sensor are configured to couple with a syringe configured to contain a liquid. The viscometer further includes an electronic controller configured to control operations of the dispensing mechanism and receive and process data from the viscosity sensor. The viscometer includes a sample loading interface, included in the syringe, through which the viscometer is configured to receive the liquid. The sample loading interface includes a selection valve coupled with, and located between, the viscosity sensor and the syringe.

A slurry analysis system (14) for estimating a first characteristic of a slurry (12) having a plurality of particles (18) suspended in a dispersion medium (20) can include a flow restriction assembly (40); a sensor assembly (43) that senses a sensed condition of the slurry (12) as it flows through the flow restriction assembly (40); and a control and analysis system (26) that estimates the first characteristic of the slurry (12) based on the sensed condition. Further, the control and analysis system (26) can select a selected clogging behavior using the sensed condition, and estimate the first characteristic based on the selected clogging behavior.

This disclosure provides a system for measuring rheological properties of a fluid including a vessel with a shape defined by the following proportionality: x∝C ×y{circumflex over ( )}((1/n)) wherein the symbol ∝ refers to proportionality, and the variables x and y are coordinates on an x-y cartesian coordinate plane, where x is length and y is height; 2≤n≤4; and C is a constant with dimensions of length, and the vessel includes a hole at or near the y-coordinate minimum; a temperature sensor and a pressure sensor wherein the temperature sensor and pressure sensor are configured to transmit temperature and pressure information to a mobile display device, tablet, or computer, the mobile display device, tablet, or computer comprising memory and a processor and a software application configured to perform processing operations including accepting two input numerical values including density and viscosity measured by the vessel and outputting industry standard dial readings of a conventional rotational rheometer.

This disclosure provides a system for measuring rheological properties of a fluid including a vessel with a shape defined by the following proportionality: x∝C ×y{circumflex over ( )}((1/n)) wherein the symbol ∝ refers to proportionality, and the variables x and y are coordinates on an x-y cartesian coordinate plane, where x is length and y is height; 2≤n≤4; and C is a constant with dimensions of length, and the vessel includes a hole at or near the y-coordinate minimum; a temperature sensor and a pressure sensor wherein the temperature sensor and pressure sensor are configured to transmit temperature and pressure information to a mobile display device, tablet, or computer, the mobile display device, tablet, or computer comprising memory and a processor and a software application configured to perform processing operations including accepting two input numerical values including density and viscosity measured by the vessel and outputting industry standard dial readings of a conventional rotational rheometer.

Provided are apparatuses and methods for rapid viscometry of whole blood, plasma, and/or whole blood during coagulation. The disclosed technology measures the blood viscosity through the full range of flow rates found in the cardio-vascular system. This in vitro test can be performed on fresh or anticoagulated whole blood to predict the flow properties (e.g., viscosity) anywhere in the body from the aorta to the deep veins of the leg. The result is a flow-rate dependent blood viscosity curve (viscosity profile) that helps the clinician predict and manage the patient's vulnerability to thrombosis and embolism, which is of particular relevance to COVID-19 patients and/or ICU patients.

A device for determining the rheological properties of blood may include a channel having at least one channel sub-section that has a substantially constant cross-section; apparatus for determining a pressure differential along at least a portion of the sub-section of the channel; a first reservoir that is adapted to be located at a first end of the channel and to be placed in fluid communication with the channel, the first reservoir being of variable internal volume; a second reservoir that is adapted to be placed in fluid communication with first reservoir via the channel, the second reservoir being of variable internal volume; means for allowing blood to be introduced into the device; an outlet for allowing gas to be expelled from the device; and means for varying the volume of the first reservoir.

A device for determining the rheological properties of blood may include a channel having at least one channel sub-section that has a substantially constant cross-section; apparatus for determining a pressure differential along at least a portion of the sub-section of the channel; a first reservoir that is adapted to be located at a first end of the channel and to be placed in fluid communication with the channel, the first reservoir being of variable internal volume; a second reservoir that is adapted to be placed in fluid communication with first reservoir via the channel, the second reservoir being of variable internal volume; means for allowing blood to be introduced into the device; an outlet for allowing gas to be expelled from the device; and means for varying the volume of the first reservoir.

A rheological property, for example a thixotropy property, of a fluid such as a drilling fluid, can according to various examples be determined by performing a method that includes providing measurement apparatus having a flowline having a first diameter section and a second diameter section; pumping the drilling fluid along the flowline; measuring at least one differential pressure in the drilling fluid upstream in the second diameter section, using at least one upstream sensor; measuring at least one differential pressure in the drilling fluid downstream in the second diameter section, using at least one downstream sensor; and using the differential pressures from the second diameter section to determine the rheological property and/or the thixotropy property. A method of determining a gelation property of the fluid is also described. Various apparatus for use in determining the rheological property, the thixotropy property, and gelation property are also exemplified.

A flow measurement assembly that includes a production string and a flow meter fluidically coupled to the production string. The flow meter includes a variable Venturi tube attached to and configured to flow production fluid received from the production string. The variable Venturi tube includes an end fixed to the production string and at least one Venturi throat. The flow meter also includes an actuator configured to move the variable Venturi tube with respect to the fixed end. The flow meter includes a processor communicatively coupled sensors coupled to the variable Venturi tube. The processor determines, based on a first fluid parameter and the second fluid parameter received from the sensors, at least one of a mass flow rate of the production fluid, a density of the production fluid, a viscosity of the production fluid, or a coefficient of discharge of the production fluid.

A flow measurement assembly that includes a production string and a flow meter fluidically coupled to the production string. The flow meter includes a variable Venturi tube attached to and configured to flow production fluid received from the production string. The variable Venturi tube includes an end fixed to the production string and at least one Venturi throat. The flow meter also includes an actuator configured to move the variable Venturi tube with respect to the fixed end. The flow meter includes a processor communicatively coupled sensors coupled to the variable Venturi tube. The processor determines, based on a first fluid parameter and the second fluid parameter received from the sensors, at least one of a mass flow rate of the production fluid, a density of the production fluid, a viscosity of the production fluid, or a coefficient of discharge of the production fluid.