Apparatus for dehydrating oil
First Claim
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1. A system for removing aqueous components from a fluid, the system comprising:
- a pumping unit configured to pump a stream of fluid from which aqueous components are to be removed;
a heating unit coupled to the pumping unit for heating the fluid stream, the heating unit including a heating element and a sensor secured to the heating element for detecting temperature of a surface of the heating element and for generating a surface temperature signal representative thereof;
a fluid temperature sensor downstream of the heating unit, the fluid temperature sensor being configured to detect temperature of the fluid stream and to generate a fluid temperature signal representative thereof;
a vacuum circuit coupled to the heating unit for subjecting the heated fluid stream to a pressure lower than atmospheric pressure to remove aqueous components from the fluid stream;
a recirculation loop for directing at least a portion of the fluid stream through the heating unit based upon the fluid temperature signal to maintain the fluid temperature at a desired level, the recirculation loop including a valve for regulating flow rate of fluid from the heating unit to the vacuum circuit; and
a control circuit coupled to the heating unit and configured to limit energy input to the heating element to limit the temperature of the heating element surface based upon the surface temperature signal.
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Accused Products
Abstract
A system for dehydrating lubricating and hydraulic fluids includes a heating circuit and circuitry for creating a vacuum. The heating circuitry introduces a stream of heated fluid into a vacuum chamber in which a partial vacuum is drawn by the vacuum circuit. Aqueous components of the fluid stream are flashed in the vacuum chamber by virtue of the elevated temperature and reduced pressure. Dehydrated fluid is then collected and evacuated from the vacuum chamber. Vapor from the vacuum chamber, including the aqueous components of the fluid stream are collected, condensed and separately evacuated. The heating circuit limits surface temperature of a heating element in a closed-loop manner to avoid degradation of the fluid. The fluid stream is introduced into the vacuum chamber or is recirculated through the heating circuit to maintain a desired level of fluid temperature in a closed-loop manner. The system includes circuits for evacuating dehydrated fluid in a closed-loop manner and for automatically discharging condensate. The technique avoids undesirable foaming of dehydrated fluid within the vacuum chamber. A vacuum pulsing circuit is provided for periodically pulsing vacuum pressure within the vacuum chamber to aid in flashing aqueous components from the heated fluid stream.
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Citations
31 Claims
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1. A system for removing aqueous components from a fluid, the system comprising:
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a pumping unit configured to pump a stream of fluid from which aqueous components are to be removed;
a heating unit coupled to the pumping unit for heating the fluid stream, the heating unit including a heating element and a sensor secured to the heating element for detecting temperature of a surface of the heating element and for generating a surface temperature signal representative thereof;
a fluid temperature sensor downstream of the heating unit, the fluid temperature sensor being configured to detect temperature of the fluid stream and to generate a fluid temperature signal representative thereof;
a vacuum circuit coupled to the heating unit for subjecting the heated fluid stream to a pressure lower than atmospheric pressure to remove aqueous components from the fluid stream;
a recirculation loop for directing at least a portion of the fluid stream through the heating unit based upon the fluid temperature signal to maintain the fluid temperature at a desired level, the recirculation loop including a valve for regulating flow rate of fluid from the heating unit to the vacuum circuit; and
a control circuit coupled to the heating unit and configured to limit energy input to the heating element to limit the temperature of the heating element surface based upon the surface temperature signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A system for removing aqueous components from a fluid, the system comprising:
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a pumping unit configured to pump a stream of fluid from which aqueous components are to be removed;
a heating circuit coupled to the pumping unit for heating the fluid stream;
a vacuum circuit downstream of the heating circuit for subjecting heated fluid to a pressure lower than atmospheric pressure to remove aqueous components therefrom;
a temperature controlled recirculation circuit coupled to the heating circuit, the recirculation circuit including a fluid temperature sensor, a recirculation loop and a control valve, the recirculation loop directing a first portion of the fluid stream through the heating circuit based upon the fluid temperature and directing a second portion of the fluid stream through the vacuum circuit; and
a control circuit coupled to the temperature sensor and to the control valve, the control circuit configured to regulate flow through the control valve based upon a temperature signal from the temperature sensor. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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20. A system for removing aqueous components from a fluid, the system comprising:
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a pumping unit configured to pump a stream of fluid from which aqueous components are to be removed;
a heating circuit coupled to the pumping unit for heating the fluid stream;
a vacuum circuit downstream of the heating circuit for subjecting heated fluid to a pressure lower than atmospheric pressure to remove aqueous components therefrom, the vacuum circuit including a vacuum chamber and means for drawing a vacuum within the vacuum chamber; and
an evacuation circuit for evacuating dehydrated fluid from the vacuum chamber based upon a level of dehydrated fluid within the vacuum chamber, the evacuation circuit including a level sensor disposed within the vacuum chamber to detect the level of dehydrated fluid within the vacuum chamber and to generate a level signal representative thereof, and an evacuation pump circuit configured for drawing dehydrated fluid from the vacuum chamber based upon the level signal. - View Dependent Claims (21, 22, 23, 24, 25)
a condensing circuit coupled to the vacuum circuit, the condensing circuit being configured to condense gaseous phase aqueous components removed from the fluid stream, the condensing circuit including a condensate collection vessel and a discharge circuit configured to discharge condensate from the condensate collection vessel; and
means for changing pressure within the collection vessel;
wherein the condensate discharge circuit is configured to discharge condensate from the collection vessel under the influence of pressure within the collection vessel.
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26. A system for removing aqueous components from a fluid, the system comprising:
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a pumping unit configured to pump a stream of fluid from which aqueous components are to be removed;
a heating circuit coupled to the pumping unit for heating the fluid stream;
a vacuum circuit downstream of the heating circuit for subjecting heated fluid to a pressure lower than atmospheric pressure to remove aqueous components therefrom, the vacuum circuit including a vacuum chamber and means for drawing a vacuum within the vacuum chamber;
an evacuation circuit for evacuating dehydrated fluid from the vacuum chamber based upon a level of dehydrated fluid within the vacuum chamber; and
means for cyclically introducing pulsed flow of air through the vacuum chamber to vary vacuum pressure within the vacuum chamber. - View Dependent Claims (27, 28)
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29. A system for removing aqueous components from a fluid, the system comprising:
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a pumping unit configured to pump a stream of fluid from which aqueous components are to be removed;
a heating circuit coupled to the pumping unit for heating the fluid stream;
a vacuum circuit downstream of the heating circuit for subjecting heated fluid to a pressure lower than atmospheric pressure to remove aqueous components therefrom, the vacuum circuit including a vacuum chamber and means for drawing a vacuum within the vacuum chamber;
an evacuation circuit for evacuating dehydrated fluid from the vacuum chamber based upon a level of dehydrated fluid within the vacuum chamber;
a condensing circuit coupled to the vacuum circuit for condensing gaseous phase aqueous components removed from the fluid stream;
a condensate collection vessel for receiving condensate from the condensing circuit; and
a condensate discharge circuit including means for changing pressure within the condensate collection vessel to force discharge of condensate from the collection vessel. - View Dependent Claims (30, 31)
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Specification
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Current AssigneeOilquip, Inc.
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Original AssigneeOilquip, Inc.
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InventorsYoder, Perry D.
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Primary Examiner(s)Manoharan, Virginia
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Application NumberUS09/044,207Time in Patent Office1,140 DaysField of Search159/901, 159/DIG. 16, 159/44, 159/DIG. 40, 159/16.1, 159/2.1, 202/205, 202/160, 202/206, 202/202, 202/264, 203/20, 203/1-3, 203/DIG. 18, 203/14, 203/49, 203/93-94, 203/98, 203/91, 203/160, 203/888, 196/132, 196/141, 196/114, 196/127, 210/180, 210/774US Class Current202/160CPC Class CodesB01D 3/06 Flash distillationB01D 3/10 Vacuum distillation B01D3/1...B01D 3/42 Regulation; ControlY10S 159/16 VacuumY10S 159/40 PumpsY10S 159/901 Promoting circulation
