The present invention relates to a method and system for determining the void fraction of a multi-phase system in a channel. The method comprises the steps of measuring a void fraction dependent parameter of the multi-phase system, obtaining a flow regime of the multi-phase system, and determining the void fraction of the multi-phase system taking into account a set of one or more relationships between the void fraction dependent parameter and the void fraction, the set of relationships being specific for the obtained flow regime.

The present invention relates to a method and system for determining the void fraction of a multi-phase system in a channel. The method comprises the steps of measuring a void fraction dependent parameter of the multi-phase system, obtaining a flow regime of the multi-phase system, and determining the void fraction of the multi-phase system taking into account a set of one or more relationships between the void fraction dependent parameter and the void fraction, the set of relationships being specific for the obtained flow regime.

A working fluid monitoring system for monitoring a working fluid of working fluid system of a piece of equipment is provided. The working fluid monitoring system can include a filter member having an inlet, an outlet, and a filter media disposed between the inlet and the outlet. The filter member can be configured to permit fluid communication of the working fluid of the working fluid system from the inlet, through the filter media, and out the outlet of the filter member. A sensor is in operable communication with the working fluid within the filter member and is configured to monitor in situ a parameter of the working fluid and/or the working fluid system.

A working fluid monitoring system for monitoring a working fluid of working fluid system of a piece of equipment is provided. The working fluid monitoring system can include a filter member having an inlet, an outlet, and a filter media disposed between the inlet and the outlet. The filter member can be configured to permit fluid communication of the working fluid of the working fluid system from the inlet, through the filter media, and out the outlet of the filter member. A sensor is in operable communication with the working fluid within the filter member and is configured to monitor in situ a parameter of the working fluid and/or the working fluid system.

A method of and system for obtaining a consistent volume of a viscous material includes inserting a sample holder portion of a collection device into a body of the viscous material and filling an open, concave sample receptacle of the sample holder portion with the viscous material. A scrapper is used to remove excess viscous material above the open, concave receptacle. The collection device and the viscous material loaded therein are inserted into a sample vial. Then, the sample vial with the collection device therein is inserted into the port of an analyzer.

A method of and system for obtaining a consistent volume of a viscous material includes inserting a sample holder portion of a collection device into a body of the viscous material and filling an open, concave sample receptacle of the sample holder portion with the viscous material. A scrapper is used to remove excess viscous material above the open, concave receptacle. The collection device and the viscous material loaded therein are inserted into a sample vial. Then, the sample vial with the collection device therein is inserted into the port of an analyzer.

A method for measuring a concentration of an analyte in a bio-sample using an electrochemical bio-sensor according to an exemplary embodiment of the present invention is characterized by a step of obtaining predetermined features from induced currents obtained by applying a DC voltage according to chronoamperometry in which, after a whole blood sample is injected to the electrochemical bio-sensor, a concentration of an analyte is obtained from an induced current obtained by applying a DC voltage for a certain time and from all induced currents obtained by further applying several step-ladder perturbation potentials for a short time subsequent to the DC voltage for the certain time, and is also characterized by minimization of a measurement error caused by a hindering material by forming a calibration equation by combining the at least one feature in a function and optimizing various conditions of the bio-sample through DeletedTextsmultivariable analysis. With this configuration, a perturbation potential application method added to a conventional measurement method can maintain a bio-sensor and a measuring apparatus already used, a line used in the measuring apparatus, and calibration of amperometry as they are, improve accuracy in measurement by effectively minimizing a matrix interference effect of a background material in a bio-sample, particularly an inaccuracy caused by a change in hematocrit, and also remarkably improve accuracy in measurement by simply upgrading a measurement program of a conventional measuring apparatus.

An apparatus senses properties of a fluid. The apparatus has a pipe section, a valve, and an instrument. The pipe section has an envelope, through which a flow of the fluid is coupled between a tank of an electrical power device and a cooling device. The envelope is disposed about a longitudinal axis, and has a penetration disposed laterally, relative to the longitudinal axis. The valve is disposed within the one or more penetrations and has a closed position and an open position. The instrument is operable for the sensing of the fluid properties, and has a probe disposed in contact with the fluid through the valve in the open position.

An apparatus senses properties of a fluid. The apparatus has a pipe section, a valve, and an instrument. The pipe section has an envelope, through which a flow of the fluid is coupled between a tank of an electrical power device and a cooling device. The envelope is disposed about a longitudinal axis, and has a penetration disposed laterally, relative to the longitudinal axis. The valve is disposed within the one or more penetrations and has a closed position and an open position. The instrument is operable for the sensing of the fluid properties, and has a probe disposed in contact with the fluid through the valve in the open position.

The invention relates to the detection of DHA and EPA. In a particular aspect, the invention relates to methods for detecting DHA and EPA by mass spectrometry and kits for carrying out such methods.