YOKOGAWA CORPORATION OF AMERICA Patent applications |
Patent application number | Title | Published |
20150160057 | SYSTEMS AND METHODS FOR DETERMINING MASS FLOW MEASUREMENTS OF FLUID FLOWS - The disclosure generally relates to flow meters and more particularly relates to systems and methods for determining, among other things, mass flow measurements of fluids. In certain embodiments, a system may include a pipe having a fluid flow therethrough, a first flow meter coupled to the pipe, and a second flow meter coupled to the pipe in series with the first flow meter. The system also may include a computer in communication with the first flow meter and the second flow meter. The computer may be configured to receive fluid flow information from the first flow meter; receive fluid flow information from the second flow meter; and determine, based at least in part on the fluid flow information from the first flow meter and the fluid flow information from the second flow meter, a mass flow measurement of the fluid flow. | 06-11-2015 |
20150100252 | SYSTEMS AND METHODS FOR DETERMINING A VOLUMETRIC FLOW OF A LIQUID PORTION OF A MULTIPHASE FLUID FLOW - The disclosure generally relates to mass flow meters and more particularly relates to systems and methods for determining, among other things, a volumetric flow of a liquid portion of a multiphase fluid flow. In certain embodiments herein, an expected liquid density of a fluid flow at an operating condition may be determined. Such a determination may include receiving a measured density of the fluid flow and comparing the expected liquid density of the fluid flow to the measured density of the fluid flow. Further, a phase status of the fluid flow may be determined based at least in part on the expected liquid density compared to the measured density of the fluid flow. | 04-09-2015 |
20150027235 | OPTIMIZED TECHNIQUES FOR GENERATING AND MEASURING TOROIDAL VORTICES VIA AN INDUSTRIAL VORTEX FLOWMETER - A vortex flowmeter may utilize a ring-shaped bluff body as the vortex generator or shedder. The ring shape and size of the vortex ring generator may be optimized to produce linear and stable toroidal vortex outputs that may outperform the conventional shedder bar. In comparison to the conventional vortex shedder bar, the ring may have a slimmer configuration and a higher K-factor, and hence, a higher resolution. | 01-29-2015 |
20150027234 | FLOW AREA REDUCTION IN VORTEX FLOWMETERS USING BORE REDUCTION TECHNIQUES - Certain embodiments herein relate to configurations for reducing the flow area for fluids traveling through a Vortex flowmeter. Such configurations may establish a minimum required Reynolds number consistent with optimized performance of the Vortex flowmeter. Various configurations for achieving optimized performance may include inserting one or more segments or a streamlined, torpedo-shaped body into a bore of a meter body of the Vortex flowmeter to block a certain cross-sectional area of the bore. By reducing the cross-sectional area of the bore, the Reynolds number of fluids may be increased to the optimized level. Another configuration may include reducing the diameter of the bore of the meter body. Any of these configurations may be implemented to achieve a desired Reynolds number, and hence, optimized performance. Certain embodiments herein also relate to determining or calculating precise or near precise sizes for segment insertions, torpedo body diameters, and diameters of the meter body. | 01-29-2015 |
20150027233 | FLOW AREA REDUCTION TECHNIQUES USING A CENTRALIZED STREAMLINED BODY IN VORTEX FLOWMETERS - Certain embodiments herein relate to configurations for reducing the flow area for fluids traveling through a Vortex flowmeter. Such configurations may establish a minimum required Reynolds number consistent with optimized performance of the Vortex flowmeter. Various configurations for achieving optimized performance may include inserting one or more segments or a streamlined, torpedo-shaped body into a bore of a meter body of the Vortex flowmeter to block a certain cross-sectional area of the bore. By reducing the cross-sectional area of the bore, the Reynolds number of fluids may be increased to the optimized level. Another configuration may include reducing the diameter of the bore of the meter body. Any of these configurations may be implemented to achieve a desired Reynolds number, and hence, optimized performance. Certain embodiments herein also relate to determining or calculating precise or near precise sizes for segment insertions, torpedo body diameters, and diameters of the meter body. | 01-29-2015 |
20140309756 | System, Method and Apparatus for Determining Properties of Product or Process Streams - Systems, methods, and apparatuses are provided for determining properties of process streams, in particular, hydrocarbon processing streams. The systems, methods, and apparatuses frequently, for example, substantially in real-time, determine measurements for the properties of the process stream. The systems, methods, and apparatuses provide features that allow such properties of process streams to be accurately measured even as process conditions and other parameters that affect process operations change. More specifically, an analyzer having a measurement device configured to detect one or more independent variables of a process stream, a model configured to determine one or more analyzer measurements from the one or more independent variables, and a procedure to adjust the model using a corresponding primary measurement is disclosed. | 10-16-2014 |
20120107752 | SYSTEMS, METHODS, AND APPARATUS FOR DETERMINING AIRFLOW THROUGH A BURNER - Certain embodiments of the invention may include systems, methods, and apparatus for determining airflow through a burner. According to an example embodiment of the invention, a method is provided for determining airflow through a burner. The method includes installing a first end of an inlet pressure transmission tube in an air inlet region of a furnace burner system, installing a first end of a burner pressure transmission tube in a burner exit region of the furnace burner system, connecting a second end of the inlet pressure transmission tube to a first pressure sensor, connecting a second end of the burner pressure transmission tube to a second pressure sensor, measuring the differential pressure between the first and second pressure sensors, and determining airflow based at least in part on the measured differential pressure. | 05-03-2012 |
20120103101 | SYSTEMS, METHODS, AND APPARATUS FOR COMPENSATING ATMOSPHERIC PRESSURE MEASUREMENTS IN FIRED EQUIPMENT - Certain embodiments of the invention may include systems, methods, and apparatus for providing compensating atmospheric pressure measurements in fired equipment. According to an example embodiment of the invention, a method is provided compensating pressure measurements. The method includes providing a wind compensating ring tube having three or more apertures to equalize pressure inside the compensating ring tube, installing the wind compensating ring tube adjacent to a furnace, connecting a pressure transmission tube from the wind compensating ring tube to one or more pressure sensors, and transmitting pressure from inside the wind compensating ring tube to the one or more pressure sensors by the pressure transmission tube. | 05-03-2012 |