By Changing Fluid Direction Patents (Class 73/861.72)
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Patent number: 11821775Abstract: A mass flow meter includes an arcuate tube section that is semi-circular, an inner pressure sensor disposed on an inner curvature portion of the arcuate tube section and configured to capture an inner pressure measurement of the flowing fluid, an outer pressure sensor disposed on an outer curvature portion of the arcuate tube section and configured to capture an outer pressure measurement of the flowing fluid, and processing circuitry. The processing circuitry may be configured to receive the inner pressure measurement and the outer pressure measurement, determine a pressure difference between the inner pressure measurement and the outer pressure measurement, and determine a mass flow rate of the flowing fluid passing through the arcuate tube section based on the pressure difference and a fluid density of the flowing fluid.Type: GrantFiled: March 10, 2022Date of Patent: November 21, 2023Assignee: The Johns Hopkins UniversityInventor: Jonathan P. Jones
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Patent number: 9518853Abstract: An aspect provides a method of metering flow through a fluid conduit having an obstruction therein, including: placing an obstruction body within the conduit; generating at least two differential pressure measurement signals using at least three different pressure ports, said at least three different pressure ports comprising: an upstream pressure port; a downstream pressure port; and an auxiliary pressure port; wherein at least one of the upstream pressure port, the downstream pressure port, and the auxiliary pressure port is positioned at an angle between 0 and 90 degrees with respect to a conduit wall; establishing a baseline relationship between the at least two differential pressure measurement signals; and determining if the baseline relationship between the at least two differential pressure measurement signals differs by a predetermined amount. Other aspects are described and claimed.Type: GrantFiled: September 5, 2013Date of Patent: December 13, 2016Assignee: McCrometer, Inc.Inventors: Jared Steven Ayers, Gerald E. Davis, Clinton Paul Hobbs, Eric Dahl Mikkelsen
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Publication number: 20140137640Abstract: The present invention relates to a fluid measuring device comprising a capillary device and a non-linear response device. The capillary device typically having a flow channel comprising a contraction with a sidelet upstream and sidelet downstream of the contraction, the sidelets each comprises a pressure sensor arranged to determine the pressure drop over the contraction, the geometry of the flow channel of the capillary device being adapted to provide a flow response by the linear effects in the fluid, with the least response from the non-linear effects in the fluid. The non-linear response device typically having a flow channel connected to the flow channel of the capillary device, the flow channel of the non-linear response device comprising sidelets arranged to determine a pressure drop over at least a part of the flow channel, wherein the geometry of the flow channel of the non-linear response device being adapted to provide a flow response primarily driven by the non-linear effects in the fluid.Type: ApplicationFiled: June 22, 2012Publication date: May 22, 2014Applicant: Danmarks Tekniske UniversitetInventor: Fridolin Okkels
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Patent number: 8687175Abstract: A method is provided for monitoring velocity of a fluid flow through a predetermined fluid flow space. A fiber optic conductor includes a flow measurement portion defining an elongated dimension extending across a portion of the fluid flow space. The fluid flow in the fluid flow space causes the measurement portion of the fiber optic conductor to flex in a direction transverse to the elongated dimension. Optical radiation is supplied to the fiber optic conductor, and optical radiation is received from the fiber optic conductor after the supplied optical radiation has passed through the measurement portion. The received optical radiation is analyzed to effect a determination of a flow velocity of the fluid flow.Type: GrantFiled: May 5, 2011Date of Patent: April 1, 2014Assignee: Siemens Energy, Inc.Inventors: Evangelos V. Diatzikis, Edward D. Thompson, Michael Twerdochlib
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Patent number: 6644132Abstract: The present invention includes a flow conditioning apparatus for conditioning flow for accurate flow measurements. The flow conditioning apparatus is installed in a fluid stream to provide a flow pattern which is capable of flow measurement. In one embodiment, the flow pattern resembles plug flow or flat flow in a pipe. The apparatus for conditioning flow in a pipe, in accordance with the present invention, includes a centrally disposed hub with a plurality of angled members attached to the hub on at a first end portion of the angled members. The angled members include a second end portion extending radially outward from the hub. The second end portion of the angled members is attached to a ring such that the plurality of angled members cause a fluid to swirl within the pipe to condition a flow in the pipe.Type: GrantFiled: May 8, 2000Date of Patent: November 11, 2003Inventor: Joseph Baumoel