An analyte identifying and sorting apparatus for sorting a target analyte based on an identification result of analytes dispersed in a liquid. The apparatus includes an identification unit including an analyte storage section configured to store analytes dispersed in a liquid, a pressure control section configured to feed the liquid to a flow path provided to extend downward from the analyte storage section, a light irradiation section configured to irradiate light to the analytes, an optical information measurement section measuring optical information of the analytes, and a determination section determining whether the analyte is a target analyte or a non-target analyte based on the optical information. Also included is a sorting unit that includes a sorting nozzle connected to the identification unit and sorts a sorted solution containing the target analyte to the vessel, an effluent collection section having a suction nozzle to suck and collect an effluent involving an effluent discharged from a tip of the sorting nozzle, and a collection vessel configured to collect the sorted solution containing the target analyte. A moving unit moves the sorting nozzle and/or the collection vessel, a control unit moves the sorting nozzle and/or the collection vessel based on the optical information, and a stirring unit including a stirring member in an inner space of the analyte storage section.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.

An apparatus for inserting and removing a mixer rotor pin includes at least one rotor pin with a transverse bore, as well as a rod dimensioned for slidably engaging the transverse bore. The apparatus also includes a mixer rotor pin insertion and removal tool having a tool body. A bottom of the tool has a slot for selectively engaging the aforementioned rod upon insertion of the rod into the transverse bore, and a top of the tool has a non-circular socket for accommodating a driver tool.

A tinting system includes a storage system and a colorant dispenser. The storage system includes a container that defines a fluid-tight, sealed chamber within which a colorant containing reduced levels of biocide (fungicide and/or bactericide) is stored. A valve is positioned at and sealed to an opening provided in the container. The colorant dispenser includes an inlet configured to be releasably and removably attached to the valve of the container. A pump and dosing valve of the colorant dispenser are operated to dispense colorant from the storage system through a discharge nozzle of the colorant dispenser. The dispensed colorant may be used to tint an aqueous-based paint.

An electrically driven oilfield blender system is configured to utilize electric motors as electric prime movers to prepare frac slurry and move the frac slurry to an oilfield pressure pumping system or pressure pumper that pumps the frac slurry into a subterranean formation. Each of the prime mover electric motors may operate at a fixed or constant rated speed and may be connected to a transmission that can drive a device such as a feed pump for a mixing tub or an auxiliary device at a variable speed. An electro-hydraulic motor start system includes an electric motor that powers a hydraulic pump. The hydraulic pump drives hydraulic motors that pre-rotate the prime mover electric motors to their rated speeds before they are energized.

An electrically driven oilfield blender system is configured to utilize electric motors as electric prime movers to prepare frac slurry and move the frac slurry to an oilfield pressure pumping system or pressure pumper that pumps the frac slurry into a subterranean formation. Each of the prime mover electric motors may operate at a fixed or constant rated speed and may be connected to a transmission that can drive a device such as a feed pump for a mixing tub or an auxiliary device at a variable speed. An electro-hydraulic motor start system includes an electric motor that powers a hydraulic pump. The hydraulic pump drives hydraulic motors that pre-rotate the prime mover electric motors to their rated speeds before they are energized.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.

A process for controlling a decarboxylation of acidic cannabinoids for an infused soluble fat product, such as a butter product, is disclosed. In one embodiment for producing a butter product, raw cannabis base material is dried, pulverized, heated, and cooled to produce a decarbed cannabis material. The decarbed cannabis material is mixed with unsalted butter in an about 22:1 to and about 26:1 ratio, by weight, at ambient temperature and pressure, to produce a heterogenous butter material. The heterogenous butter material is canned and subjected to in-container thermal processing, including agitation during the thermal processing. The resulting heterogenous butter material is separated before cooling produces the butter product.

A nucleic acid extracting device includes a reagent containing unit, a mixing unit, and a flow channel unit. The reagent containing unit contains a specimen, a magnetic bead, and a reagent for extracting. The mixing unit includes a mixing chamber and a stirring assembly. The mixing chamber includes a chamber portion and a tube portion. The stirring assembly includes a main body and an extension. The main body is provided in the chamber portion. The tube portion connects the chamber portion. And the extension connects the main body and extends into the tube portion. The extension and an inner wall of the tube portion have first and second gaps therebetween respectively along first and second directions of the tube portion. The first gap is less than the second gap. The flow channel unit is connected between the reagent containing unit and the mixing unit.