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An effective and efficient orifice plate is provided to accurately and safely measure the flow rate of gases and liquids. Advantageously, the orifice plate prevents leakage, spillage, and dripping of hot hydrocarbon liquids and gases and other fluids. To this end, the orifice plate comprises an annu

An effective and efficient orifice plate is provided to accurately and safely measure the flow rate of gases and liquids. Advantageously, the orifice plate prevents leakage, spillage, and dripping of hot hydrocarbon liquids and gases and other fluids. To this end, the orifice plate comprises an annular disk with special front and back surfaces. The special front and back surfaces have a flat fluid-engaging barrier portion which contact the fluid stream about the flow passageway and have a grooved portion which extends radially outwardly of the flat portion to effectively seal and abut against one or more seals or gaskets.

대표청구항 ▼

An orifice plate assembly, comprising: an inlet pipe having an inside diameter and defining an inlet axial passageway for passage of a fluid stream comprising liquid hydrocarbons at a temperature of at least 500°F.; an outlet pipe having an inside diameter and defining an outlet axial passageway in

An orifice plate assembly, comprising: an inlet pipe having an inside diameter and defining an inlet axial passageway for passage of a fluid stream comprising liquid hydrocarbons at a temperature of at least 500°F.; an outlet pipe having an inside diameter and defining an outlet axial passageway in communication with said inlet axial passageway of said inlet pipe, and said inside diameters of said inlet and outlet pipes being substantially similar in size; an inlet orifice flange having an inlet hub and an inlet flange portion, said inlet hub extending integrally outwardly from said inlet flange portion in a direction generally opposite the direction of flow of said fluid stream in said inlet pipe and weldably secured to said inlet pipe, said inlet flange portion extending radially outwardly of said inlet hub and having an inlet gasket-engaging surface, said inlet flange portion defining at least one radial, inlet, plug-receiving opening and a set of inlet, circumferentially spaced, axial stud holes, and said inlet gasket-engaging surface facing downstream and having a grooved inlet surface finish ranging from about 125 microinch to about 500 microinch; an outlet orifice flange having an outlet hub and an outlet flange portion, said outlet hub extending integrally outwardly from said outlet flange portion in a direction substantially similar to the direction of said fluid stream in said outlet pipe and weldably secured to said outlet pipe, said outlet flange portion extending radially outwardly of said outlet hub and having an outlet gasket-engaging surface, said outlet flange portion defining at least one radial, outlet, plug-receiving opening and a set of outlet, circumferentially spaced, axial stud holes aligned in registration with said inlet axial stud holes, and said outlet gasket-engaging surface facing upstream and having a grooved outlet surface finish ranging from about 125 microinch to about 500 microinch; a differential pressure flow indicator comprising an electrical transmitter and a sensing unit connected to said electrical transmitter for sensing the differential pressure of the fluid passing through the flow passage of the orifice plate, said sensing unit including an inlet tube connected to an inlet plug positioned in said inlet plug-receiving opening of said inlet flange and an outlet tube connected to an outlet plug positioned in said outlet plug-receiving opening of said outlet flange; an inlet gasket having an outer substantially rigid metal, inlet centering ring and an inner compressible, spiral wound, metallic, inlet gasket portion, said inlet centering ring having an outer edge with a diameter less than the minimum diameter of the centers of the stud holes of said inlet flange, said inlet gasket portion extending axially outwardly of said inlet centering ring and defining an inlet gasket opening having a diameter at least as large as the inside diameter of said inlet pipe, said inlet gasket portion having an inlet, downstream-facing, orifice plate-engaging surface and an inlet, flange-engaging surface with said inlet gasket portion sealingly engaging said inlet gasket-engaging surface of said inlet flange; an outlet gasket having an outer substantially rigid, metal, outlet centering ring and an inner compressible, spiral wound, metallic outlet gasket portion, said outlet centering ring having an outer edge with a diameter less than the minimum diameter of the centers of the stud holes of said outlet flange, said outlet gasket portion extending axially outwardly of said outlet centering ring and defining an outlet gasket opening having a diameter at least as large as the inside diameter of said outlet pipe, said outlet gasket portion having an outlet, upstream-facing, orifice plate-engaging surface and an outlet, flange-engaging surface with said outlet gasket portion sealingly engaging said outlet gasket-engaging surface of said outlet flange; an orifice plate comprising an annular, substantially planar, solid metal disk with a generally circular outer edge and an inner flow passageway, said circular outer edge having a diameter substantially similar to the maximum diameter of said centering rings, said inner flow passageway having a cross-sectional area less than the cross-sectional area of each said pipes, said disk having an upstream-facing, front inlet surface providing an inlet barrier and wall portion for positioning substantially perpendicular to the flow of the oncoming fluid stream from said inlet pipe and a downstream-facing, back inlet surface providing an outlet barrier and wall portion for positioning substantially perpendicular to the flow of the outgoing fluid stream exiting the flow passageway towards said outlet pipe, said front surface having a fluid stream-engaging inlet portion with a substantially smooth surface finish ranging from about 16 microinch to about 32 microinch positioned about said flow passageway for resistively contacting said oncoming fluid stream and an inlet gasket-engaging portion comprising a substantially rougher surface finish ranging from about 125 microinch to about 500 microinch with a substantially concentric set of grooves positioned about said fluid stream-engaging inlet portion for sealingly engaging said inlet orifice plate-engaging surface of said inlet gasket, said back surface having a fluid stream-engaging outlet portion with a substantially smooth surface finish ranging from about 16 microinch to about 32 microinch positioned about said flow passageway for resistively contacting at least some of the outgoing fluid stream and an outlet gasket-engaging portion comprising a substantially rougher surface finish ranging from about 125 microinch to about 500 microinch with a substantially concentric set of grooves positioned about said fluid stream-engaging outlet portion for sealingly engaging said outlet orifice plate-engaging surface of said outlet gasket, and an elongated, manually grippable handle extending radially outwardly from said disk beyond said orifice flanges for positioning and facilitating handling of said orifice plate; and fasteners comprising threaded studs positioned through said stud holes of said orifice flanges and nuts for threadedly engaging said studs against said flange portions to compressively engage and secure said orifice flanges, gaskets and orifice plates together to form said orifice plate assembly.