Compact Separation Apparatus

Abstract A fluid separation apparatus for separating a fluid mixture including at least two fluids having different densities. The apparatus comprises a vessel having: a fluid reservoir; 5 a vortex generation zone located within the fluid reservoir of the vessel, the vortex generation zone including...

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Hauptverfasser:	TUCKETT, PHIL, DREHER, TRINA MARGARET
Format:	Patent
Sprache:	eng
Schlagworte:	CHEMISTRY DIFFERENTIAL SEDIMENTATION FLOTATION MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLIDMATERIALS OR FLUIDS METALLURGY PERFORMING OPERATIONS PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL SEPARATION SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATICTABLES OR JIGS TRANSPORTING TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
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creator	TUCKETT, PHIL DREHER, TRINA MARGARET
description	Abstract A fluid separation apparatus for separating a fluid mixture including at least two fluids having different densities. The apparatus comprises a vessel having: a fluid reservoir; 5 a vortex generation zone located within the fluid reservoir of the vessel, the vortex generation zone including a vortex generation wall having at least a first tapered wall section having an angle which increases the rotational velocity of a fluid mixture flowing through the vortex generation zone, the vortex generation zone having a configuration which directs the fluid mixture from the fluid inlet toward the upper 10 surface of the fluid reservoir; at least one fluid inlet for the fluid mixture, the fluid inlet extending into the vortex generation zone at an angle having a component tangential to an internal wall of the vortex generation wall at a point on the internal wall proximate to the fluid inlet; a first fluid outlet through which the less dense fluid exits the vessel, the first fluid outlet being fluidly connected to the fluid reservoir, the first 15 fluid outlet being positioned substantially level with an upper surface of the fluid reservoir; and a second fluid outlet through which the denser fluid exits the vessel, the second fluid outlet being fluidly connected to the fluid reservoir, and a gas bubble generator which introduces gas bubbles into at least a portion of the fluid mixture before the fluid mixture enters the vessel through the fluid inlet, the gas bubbles 20 assisting separation of the fluids of the fluid mixture within the fluid reservoir. Figure 1 spec-950103 16 /-,16 115-, 133 -' 43 36 30 /- -- 117 50 145211 3A 24 112 51113 40 139 --- 44
format	Patent
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The apparatus comprises a vessel having: a fluid reservoir; 5 a vortex generation zone located within the fluid reservoir of the vessel, the vortex generation zone including a vortex generation wall having at least a first tapered wall section having an angle which increases the rotational velocity of a fluid mixture flowing through the vortex generation zone, the vortex generation zone having a configuration which directs the fluid mixture from the fluid inlet toward the upper 10 surface of the fluid reservoir; at least one fluid inlet for the fluid mixture, the fluid inlet extending into the vortex generation zone at an angle having a component tangential to an internal wall of the vortex generation wall at a point on the internal wall proximate to the fluid inlet; a first fluid outlet through which the less dense fluid exits the vessel, the first fluid outlet being fluidly connected to the fluid reservoir, the first 15 fluid outlet being positioned substantially level with an upper surface of the fluid reservoir; and a second fluid outlet through which the denser fluid exits the vessel, the second fluid outlet being fluidly connected to the fluid reservoir, and a gas bubble generator which introduces gas bubbles into at least a portion of the fluid mixture before the fluid mixture enters the vessel through the fluid inlet, the gas bubbles 20 assisting separation of the fluids of the fluid mixture within the fluid reservoir. 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The apparatus comprises a vessel having: a fluid reservoir; 5 a vortex generation zone located within the fluid reservoir of the vessel, the vortex generation zone including a vortex generation wall having at least a first tapered wall section having an angle which increases the rotational velocity of a fluid mixture flowing through the vortex generation zone, the vortex generation zone having a configuration which directs the fluid mixture from the fluid inlet toward the upper 10 surface of the fluid reservoir; at least one fluid inlet for the fluid mixture, the fluid inlet extending into the vortex generation zone at an angle having a component tangential to an internal wall of the vortex generation wall at a point on the internal wall proximate to the fluid inlet; a first fluid outlet through which the less dense fluid exits the vessel, the first fluid outlet being fluidly connected to the fluid reservoir, the first 15 fluid outlet being positioned substantially level with an upper surface of the fluid reservoir; and a second fluid outlet through which the denser fluid exits the vessel, the second fluid outlet being fluidly connected to the fluid reservoir, and a gas bubble generator which introduces gas bubbles into at least a portion of the fluid mixture before the fluid mixture enters the vessel through the fluid inlet, the gas bubbles 20 assisting separation of the fluids of the fluid mixture within the fluid reservoir. 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The apparatus comprises a vessel having: a fluid reservoir; 5 a vortex generation zone located within the fluid reservoir of the vessel, the vortex generation zone including a vortex generation wall having at least a first tapered wall section having an angle which increases the rotational velocity of a fluid mixture flowing through the vortex generation zone, the vortex generation zone having a configuration which directs the fluid mixture from the fluid inlet toward the upper 10 surface of the fluid reservoir; at least one fluid inlet for the fluid mixture, the fluid inlet extending into the vortex generation zone at an angle having a component tangential to an internal wall of the vortex generation wall at a point on the internal wall proximate to the fluid inlet; a first fluid outlet through which the less dense fluid exits the vessel, the first fluid outlet being fluidly connected to the fluid reservoir, the first 15 fluid outlet being positioned substantially level with an upper surface of the fluid reservoir; and a second fluid outlet through which the denser fluid exits the vessel, the second fluid outlet being fluidly connected to the fluid reservoir, and a gas bubble generator which introduces gas bubbles into at least a portion of the fluid mixture before the fluid mixture enters the vessel through the fluid inlet, the gas bubbles 20 assisting separation of the fluids of the fluid mixture within the fluid reservoir. Figure 1 spec-950103 16 /-,16 115-, 133 -' 43 36 30 /- -- 117 50 145211 3A 24 112 51113 40 139 --- 44</abstract><oa>free_for_read</oa></addata></record>
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subjects	CHEMISTRY DIFFERENTIAL SEDIMENTATION FLOTATION MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLIDMATERIALS OR FLUIDS METALLURGY PERFORMING OPERATIONS PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL SEPARATION SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATICTABLES OR JIGS TRANSPORTING TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
title	Compact Separation Apparatus
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