US20080277092A1 - Water cooling system and heat transfer system - Google Patents

Water cooling system and heat transfer system Download PDF

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Publication number
US20080277092A1
US20080277092A1 US12/151,767 US15176708A US2008277092A1 US 20080277092 A1 US20080277092 A1 US 20080277092A1 US 15176708 A US15176708 A US 15176708A US 2008277092 A1 US2008277092 A1 US 2008277092A1
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United States
Prior art keywords
fluid
conduit
gas transport
conductive tube
outer conduit
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Abandoned
Application number
US12/151,767
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English (en)
Inventor
Frederick P. Layman
Maximilian A. Biberger
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SDC Materials Inc
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SDC Materials Inc
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Filing date
Publication date
Priority claimed from US11/110,341 external-priority patent/US20050233380A1/en
Application filed by SDC Materials Inc filed Critical SDC Materials Inc
Priority to US12/151,767 priority Critical patent/US20080277092A1/en
Assigned to SDC MATERIALS, INC. reassignment SDC MATERIALS, INC. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: BIBERGER, MAXIMILLIAN A., LAYMAN, FREDERICK P.
Publication of US20080277092A1 publication Critical patent/US20080277092A1/en
Abandoned legal-status Critical Current

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28DHEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
    • F28D15/00Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28CHEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA COME INTO DIRECT CONTACT WITHOUT CHEMICAL INTERACTION
    • F28C3/00Other direct-contact heat-exchange apparatus
    • F28C3/10Other direct-contact heat-exchange apparatus one heat-exchange medium at least being a fluent solid, e.g. a particulate material
    • F28C3/12Other direct-contact heat-exchange apparatus one heat-exchange medium at least being a fluent solid, e.g. a particulate material the heat-exchange medium being a particulate material and a gas, vapour, or liquid
    • F28C3/16Other direct-contact heat-exchange apparatus one heat-exchange medium at least being a fluent solid, e.g. a particulate material the heat-exchange medium being a particulate material and a gas, vapour, or liquid the particulate material forming a bed, e.g. fluidised, on vibratory sieves
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2/00Disinfection or sterilisation of materials or objects, in general; Accessories therefor
    • A61L2/16Disinfection or sterilisation of materials or objects, in general; Accessories therefor using chemical substances
    • A61L2/18Liquid substances
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J19/00Chemical, physical or physico-chemical processes in general; Their relevant apparatus
    • B01J19/0006Controlling or regulating processes
    • B01J19/0013Controlling the temperature of the process
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J19/00Chemical, physical or physico-chemical processes in general; Their relevant apparatus
    • B01J19/08Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor
    • B01J19/087Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor employing electric or magnetic energy
    • B01J19/088Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor employing electric or magnetic energy giving rise to electric discharges
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J2/00Processes or devices for granulating materials, e.g. fertilisers in general; Rendering particulate materials free flowing in general, e.g. making them hydrophobic
    • B01J2/16Processes or devices for granulating materials, e.g. fertilisers in general; Rendering particulate materials free flowing in general, e.g. making them hydrophobic by suspending the powder material in a gas, e.g. in fluidised beds or as a falling curtain
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J25/00Catalysts of the Raney type
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J25/00Catalysts of the Raney type
    • B01J25/02Raney nickel
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J37/00Processes, in general, for preparing catalysts; Processes, in general, for activation of catalysts
    • B01J37/0009Use of binding agents; Moulding; Pressing; Powdering; Granulating; Addition of materials ameliorating the mechanical properties of the product catalyst
    • B01J37/0018Addition of a binding agent or of material, later completely removed among others as result of heat treatment, leaching or washing,(e.g. forming of pores; protective layer, desintegrating by heat)
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J37/00Processes, in general, for preparing catalysts; Processes, in general, for activation of catalysts
    • B01J37/0009Use of binding agents; Moulding; Pressing; Powdering; Granulating; Addition of materials ameliorating the mechanical properties of the product catalyst
    • B01J37/0027Powdering
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J37/00Processes, in general, for preparing catalysts; Processes, in general, for activation of catalysts
    • B01J37/06Washing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J37/00Processes, in general, for preparing catalysts; Processes, in general, for activation of catalysts
    • B01J37/34Irradiation by, or application of, electric, magnetic or wave energy, e.g. ultrasonic waves ; Ionic sputtering; Flame or plasma spraying; Particle radiation
    • B01J37/349Irradiation by, or application of, electric, magnetic or wave energy, e.g. ultrasonic waves ; Ionic sputtering; Flame or plasma spraying; Particle radiation making use of flames, plasmas or lasers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22FWORKING METALLIC POWDER; MANUFACTURE OF ARTICLES FROM METALLIC POWDER; MAKING METALLIC POWDER; APPARATUS OR DEVICES SPECIALLY ADAPTED FOR METALLIC POWDER
    • B22F9/00Making metallic powder or suspensions thereof
    • B22F9/02Making metallic powder or suspensions thereof using physical processes
    • B22F9/12Making metallic powder or suspensions thereof using physical processes starting from gaseous material
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28FDETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
    • F28F27/00Control arrangements or safety devices specially adapted for heat-exchange or heat-transfer apparatus
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J2219/00Chemical, physical or physico-chemical processes in general; Their relevant apparatus
    • B01J2219/08Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor
    • B01J2219/0803Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor employing electric or magnetic energy
    • B01J2219/0805Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor employing electric or magnetic energy giving rise to electric discharges
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J2219/00Chemical, physical or physico-chemical processes in general; Their relevant apparatus
    • B01J2219/08Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor
    • B01J2219/0873Materials to be treated
    • B01J2219/0879Solid
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J2219/00Chemical, physical or physico-chemical processes in general; Their relevant apparatus
    • B01J2219/08Processes employing the direct application of electric or wave energy, or particle radiation; Apparatus therefor
    • B01J2219/0894Processes carried out in the presence of a plasma
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22FWORKING METALLIC POWDER; MANUFACTURE OF ARTICLES FROM METALLIC POWDER; MAKING METALLIC POWDER; APPARATUS OR DEVICES SPECIALLY ADAPTED FOR METALLIC POWDER
    • B22F2203/00Controlling
    • B22F2203/13Controlling pressure
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22FWORKING METALLIC POWDER; MANUFACTURE OF ARTICLES FROM METALLIC POWDER; MAKING METALLIC POWDER; APPARATUS OR DEVICES SPECIALLY ADAPTED FOR METALLIC POWDER
    • B22F2999/00Aspects linked to processes or compositions used in powder metallurgy
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28DHEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
    • F28D7/00Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
    • F28D7/02Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits being helically coiled
    • F28D7/024Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits being helically coiled the conduits of only one medium being helically coiled tubes, the coils having a cylindrical configuration
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28DHEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
    • F28D7/00Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
    • F28D7/08Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits being otherwise bent, e.g. in a serpentine or zig-zag
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S623/00Prosthesis, i.e. artificial body members, parts thereof, or aids and accessories therefor
    • Y10S623/92Method or apparatus for preparing or treating prosthetic
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S623/00Prosthesis, i.e. artificial body members, parts thereof, or aids and accessories therefor
    • Y10S623/92Method or apparatus for preparing or treating prosthetic
    • Y10S623/923Bone
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/0318Processes
    • Y10T137/0391Affecting flow by the addition of material or energy
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/206Flow affected by fluid contact, energy field or coanda effect [e.g., pure fluid device or system]
    • Y10T137/2076Utilizing diverse fluids
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T156/00Adhesive bonding and miscellaneous chemical manufacture
    • Y10T156/15Combined or convertible surface bonding means and/or assembly means

Definitions

  • the present invention relates generally to methods of and systems for cooling gas transport conduits configured to conduct hot gasses or gaseous mixtures.
  • gas transport systems adapted to conduct gas-particle product from gas phase particle production reactors must be designed to efficiently absorb and dissipate high heat loads. Because heat transfer between two systems occurs in proportion to the temperature differential between the two systems, efficient absorption of heat from the gas-particle product depends on maintaining the gas transport system at a significantly lower temperature than the gas-particle product, while efficient dissipation of heat from the gas transport system depends on maintaining an environment of still lower temperature in contact with the gas transport system. The independent requirements of absorption and dissipation are at odds. Gas transport systems are typically incapable of absorbing large quantities of heat without increasing their temperature. In most cases, the two requirements are balanced by actively cooling the gas transport system, which provides a controlled, low temperature environment into which the gas transport system can dissipate heat.
  • Forced-gas cooling systems typically include one or more fans, configured to force gas through one or more heat exchange structures thermally coupled with the gas transport system. Heat moves from the gas-particle product into the gas transport system and then into the heat exchange structures.
  • the heat exchange structures include heat rejecters or heat sinks configured to present a large surface area interface to the gas within a heat exchange region. As gas moves through the heat exchange region and across the large surface area of the heat rejecter or heat sink, it convectively cools the heat rejecter or heat sink.
  • such systems are simple and relatively inexpensive to operate, they are less efficient than liquid cooling systems because the heat capacity of gas is generally less than that of liquid, gas cools through mostly convective means and gas cannot be cooled as readily as can liquid.
  • forced-gas cooling systems are ill suited to cool high heat load gas-particle mixtures.
  • Liquid cooling systems typically include liquid circulation system configured to deliver fluid through one or more heat exchange structures thermally coupled with the gas transport system.
  • the heat exchange structures are typically configured to present a large surface area for interaction with the liquid within a heat exchange region. Heat is absorbed into the gas-transport system and conducted into the heat exchange structures. As liquid moves across the heat exchange surface, heat dissipates from the heat exchange structures through conductive and convective means into the liquid and heated liquid flows away from the heat exchange region. Typically, heat is removed from the heated liquid via some further cooling or refrigeration mechanism.
  • a cooling system for a conduit is presented.
  • a cooling system according to the present invention is used to cool a conduit that transports gas mixtures.
  • the cooling system is primarily intended to dissipate heat absorbed by the conduit from the gas particle product it transports.
  • hot gas-particle product is emitted from gas phase particle production reactors, such as flame reactors, plasma reactors, hot wall reactors and laser reactors.
  • the conduit conducts and conditions the gas-vapor mixtures ejected from the reactor, absorbing heat from the mixtures through multiple means.
  • the cooling system functions to dissipate heat absorbed within the conduit and prevent overheating of the conduit.
  • the present invention describes a cooling system for cooling selected portions of a gas transport conduit within a conduit system.
  • the cooling system comprises at least one cooling element configured to cool a portion of the gas transport conduit, comprising a section of outer conduit having a first end and a second end.
  • the cooling element is preferably fitted around the portion of the gas transport conduit to form a toroidal channel between the inner surface of the outer conduit and the outer surface of the gas transport conduit.
  • the toroidal channel formed between the outer conduit and the gas transport conduit has a first opening at the first end of the conduit and a second opening at the second end of the conduit.
  • a highly heat conductive tube structure is placed within the outer conduit to form the toroidal channel.
  • the highly heat conductive tube structure preferably does not seal the channel to fluid flow at any point therein, so that fluid may move freely within the toroidal channel with the highly heat conductive tube structure in place.
  • the cooling system incorporates partitions within the toroidal channel, which seal the toroidal channel to fluid flow except through the highly heat conductive tube structure.
  • the toroidal channel is divided into several chambers, each of which can have a different fluid therein, with the highly conductive tube structure passing through each of the several chambers.
  • a first cap coupled with the first opening and a second cap coupled with the second opening of the toroidal channel provide a seal between the gas transport conduit and the conduit.
  • the toroidal channel is filled with a static fluid, preferably a liquid, surrounding and thermally contacting the highly heat conductive tube structure.
  • At least one of the caps is configured with a port to allow fluid delivery therethrough into the highly heat conductive tube structure.
  • a fluid reservoir system is coupled with the one or more ports and thereby with the highly heat conductive tube structure.
  • each embodiment of the present invention includes two fluid systems, separated from one another: a circulating system (referred to as “fluid” or “circulating fluid”) and a static system (referred to as “static fluid).
  • a circulating system referred to as “fluid” or “circulating fluid”
  • static fluid referred to as “static fluid”.
  • the fluids chosen for use within each system have preferred characteristics, which differ depending on the specifics of each embodiment.
  • conduit system As the conduit system conducts hot gas, it absorbs heat from the gas. Because the gas cools as it travels through the conduit system, some portions of the conduit system absorb more heat than others.
  • An exemplary portion of a gas transport conduit within the conduit system is equipped with a cooling system as described in the preceding paragraph.
  • the cooling system of the present invention operates by removing heat from the gas transport conduit via fluid flow. As heat is absorbed into the gas transport conduit from the gas within the conduit, the cooling system works to remove heat from the conduit through the external surfaces of the conduit. Heat moves from the conduit system into the static fluid, heating the static fluid. The static fluid, being in thermal contact with the highly heat conductive tube structure, conducts heat into the highly heat conductive tube structure. Fluid flows from the fluid reservoir system into the highly heat conductive tube structure, absorbing heat from the conduit system through the highly heat conductive tube structure and the static fluid. The fluid flows from the highly heat conductive tube structure back into the fluid reservoir system, or into a different fluid reservoir. As one skilled in the art will recognize, in a closed loop system (where the fluid returns to the same reservoir system), in order to maintain cooling efficiency, the fluid is preferably cooled via external means, such as refrigeration, before being resupplied to the highly heat conductive tube structure
  • each cooling cell within cooling system includes several components: a heat exchange region, and a fluid flow control and supply system. Functioning together, these components allow a cell to provide effective cooling to a specific region of a conduit system.
  • a cooling system having a plurality of such cells working in concert provides selective, extensible and configurable cooling to a conduit system.
  • the present invention includes a desired structure and function for each component of a cell within the system.
  • the highly heat conductive tube structure sits within the toroidal channel defined between the gas transport conduit and the outer conduit and filled with the static fluid.
  • the highly heat conductive structure is wound in a spiral in the toroidal chamber along the conduit.
  • the region of interface between the conduit and the static fluid within the toroidal channel forms a first heat exchange region: heat flows from the gas transport conduit into the static fluid.
  • the surface of the interface between the static fluid and the highly heat conductive tube structure within the toroidal channel forms a second heat exchange region: heat is conducted from the static fluid into the highly heat conductive tube structure.
  • the inner surface of the highly heat conductive tube structure forms a third heat exchange region: heat flows from the highly heat conductive tube structure into the circulating fluid.
  • the highly heat conductive tube structure is preferably formed from bent highly heat conductive material.
  • Preferred materials include metals, such as copper, and highly heat conductive thermoplastics.
  • the highly heat conductive tube structure permits fluid flow there-through.
  • the present invention contemplates a variety of structures to permit fluid flow.
  • the highly heat conductive tube structure comprises porous structures and/or channel structures defining fluid flow paths.
  • the structures present a high surface area for heat exchange, relative to the volume of the highly heat conductive tube structure.
  • the highly heat conductive tube structure is spirally wound to form a toroidal shape encircling the gas transport conduit within the toroidal channel, much like the shape of a coiled spring.
  • the present invention contemplates a variety of configurations of the highly heat conductive tube structure within the toroidal channel, including coiled, folded and layered configurations.
  • the highly heat conductive tube structure can be formed independently from the conduit, or formed around the conduit. Regardless of the method of formation, the highly heat conductive tube structure is configured to fit within the toroidal channel.
  • copper tubing coiled around the gas transport conduit forms the highly heat conductive tube structure.
  • the copper tubing is preferably coiled coarsely, and may but need not physically contact the gas transport conduit.
  • Placement of the outer conduit to surround the highly heat conductive tube structure forms a toroidal channel containing the highly heat conductive tube structure.
  • the toroidal channel is sealed and filled with a static fluid.
  • the filling may be accomplished following the sealing of one end of the outer conduit and prior to the sealing of the other end. Alternatively, the filling may be accomplished through a valve system positioned in either or both ends of the heat exchanger.
  • the fluid flow control system has several functions.
  • the rate of heat dissipation within a fluid cooling system depends on many factors, several of which relate to the rate and type of fluid flow within the system.
  • An effective fluid flow control system includes means to channel the fluid to the desired portions of the heat exchange region. Also, because fluids expand under heating, and because heat dissipation within a fluid cooling system depends on heating of the fluid, the fluid control system must account for pressure changes within the fluid.
  • the toroidal chamber formed within the outer conduit and the two seals preferably includes a valve system configured to account for pressure changes within the fluid.
  • the present invention presents a fluid control system comprising several parts.
  • the outer conduit provides a confining structure, which forms the toroidal chamber in which static fluid is positioned.
  • the conduit determines the total fluid volume within the toroidal chamber, exclusive of the fluid path within the highly heat conductive tube structure.
  • each of the caps sealing the ends of the outer conduit are preferably equipped with a plurality of ports. These ports determine the pattern in which fluid flows into the highly heat conductive tube structure and thus help determine, in concert with the flow structures within the highly heat conductive tube structure, the flow patterns through the highly heat conductive tube structure.
  • the cap structures preferably include one or more pressure relief valves, configured to release fluid from the system should a sudden rise in pressure occur.
  • the fluid control system can include a pump configured to deliver fluid through the plurality of ports on one of the sealing caps.
  • the outer conduit is preferably configured along with the highly heat conductive tube structure to define a predetermined fluid volume within the toroidal region.
  • the specific volume and flow rate of an embodiment depend on the heat loads for which that embodiment is designed. Roughly, higher volumes and flow rates will be required to handle higher heat loads. Conductivity and surface area are also considerations in determining required fluid volume.
  • the outer conduit is formed from a durable, heat resistant material.
  • the material forming the outer conduit need not be thermally conductive.
  • at least the outer surface preferably comprises an insulating material. This configuration separates the heat dissipation and structural functions of the cooling system.
  • the outer surface can be heat conductive to promote additional heat loss through radiation.
  • the caps couple with and seal the ends of the outer conduit.
  • the caps can be bonded, threaded, and/or bolted on to the outer conduit.
  • the present invention contemplates any coupling that creates a seal between the cap and the outer conduit.
  • the caps comprise material similar to that in the outer conduit.
  • the seal between the conduit system and the caps can be formed in a variety of ways: the caps can be bonded, pressure fitted, or held in place by o-ring type seals. The preferred method of sealing the caps provides for expansion and contraction of the caps as the heat exchanger is heated and cooled.
  • the caps each preferably include a plurality of ports.
  • one of the ports provides a pressure relief system for the fluid system, preferably at each end of the outer conduit.
  • the other ports provide fluid delivery into the highly heat conductive tube structure in a specified configuration.
  • the configuration of the ports and the configuration of the fluid channels within the highly heat conductive tube structure complement one another to form desired flow paths through the system.
  • the configuration of the paths and the rate of fluid delivery thereto partially determine the rate of heat dissipation from the gas transport conduit to the fluid.
  • the fluid control system can further include a fluid pump and fluid supply system, which can reasonably be integrated into a single device, but can also be provided modularly.
  • the fluid pump determines the rate of fluid delivery to the plurality of ports and thus the rate of fluid flow through the highly heat conductive tube structure. Higher fluid flow rates allow the system to dissipate greater amounts of heat. Accordingly the fluid flow rates are preferably varied as heat dissipation requirements vary.
  • the cooling system of the present invention can vary its fluid flow rates to accommodate varying requirements for heat dissipation.
  • a control system controls the pump and fluid supply system according to the observed temperature difference between fluid flowing into the heat exchange region and fluid flowing from the heat exchange region. If the temperature difference is beyond desired limits, the rate of flow is increased, so long as the maximum flow rate has not been exceeded.
  • the fluid supply system preferably provides cool fluid to the fluid pump.
  • This fluid can be fresh, i.e., fluid which has not been used in the system before, or this fluid can be recirculated. If recirculated fluid is used, the fluid supply system preferably cools the recirculated fluid before resupplying it to the pump.
  • the fluid supply system can incorporate a pressure relief valve.
  • Several types of fluids are contemplated by the present invention. Preferred fluids have high thermal conductivity.
  • the preferred characteristics of the fluid and the static fluid can vary. Specifically preferred characteristics can differ both between the fluid and the static fluid within a given embodiment and within a given fluid between multiple embodiments. Important characteristics of the fluid include density, heat capacity, viscosity, and conductivity.
  • a static fluid and a circulating fluid both having a low thermal mass are chosen to allow rapid changes in the temperature of the heat exchanger.
  • circulating fluid and static fluid having high heat capacities are chosen to allow removal of large quantities of heat.
  • a gas phase particle production system As a gas phase particle production system operates, hot gas product emitted from a reactor flows through a gas transport conduit within a conduit system. As the gas flows through the conduit it cools, dissipating heat into the gas transport conduit. Because heat dissipation is proportional to temperature differential, presuming a uniform rate of conduit heating, less heat is dissipated into the gas transport conduit as the gas becomes cooler, i.e., portions of the conduit further from the point at which hot gas is introduced into the conduit absorb less heat from the gas. Because of these differences, a cooling system according to the present invention preferably incorporates a variety of subsystems. The operation of one such subsystem is discussed below.
  • a highly heat conductive tube structure is coupled with the conduit and placed within a toroidal structure formed between the gas transport conduit and an outer conduit.
  • the gas transport conduit and the highly heat conductive tube structure are in thermal contact through a static fluid within the toroidal chamber, which allows heat to dissipate from the gas transport conduit into the highly heat conductive tube structure.
  • fluid flows through the highly heat conductive tube structure, which is in contact with the static fluid.
  • heat is dissipated from the highly heat conductive tube structure into the fluid, thereby heating the fluid.
  • heat dissipated from the gas transport conduit is physically removed via dissipation into a flowing fluid.
  • a heat exchanger comprises a gas transport conduit that provides a channel through which a fluid mixture can flow.
  • An outer conduit is disposed around the gas transport conduit.
  • the outer conduit has a first end, a second end opposite the first end, a first cap covering the first end, and a second cap covering the second end.
  • the gas transport conduit passes through the first cap, into the outer conduit, and through the second cap.
  • a conductive tube passes through the outer conduit, thereby providing a channel through which a circulating fluid can flow into and out of the outer conduit.
  • a static fluid chamber is formed between the conductive tube and the gas transport conduit.
  • the static fluid chamber is configured to house a static fluid.
  • the gas transport conduit is configured to conduct heat from the fluid mixture in the gas transport conduit to the static fluid in the static fluid chamber and the conductive tube is configured to conduct heat from the static fluid in the static fluid chamber to the circulating fluid flowing through the conductive tube.
  • a cooling system comprising a fluid supply system having an inlet and an outlet.
  • the fluid supply system is configured to receive a heated circulating fluid through the inlet, cool the heated circulating fluid, and supply the cooled circulating fluid through the outlet.
  • the cooling system also comprises a gas transport conduit that provides a channel through which a fluid mixture can flow and an outer conduit disposed around the gas transport conduit.
  • the outer conduit has a first end, a second end opposite the first end, a first cap covering the first end, and a second cap covering the second end. The gas transport conduit passes through the first cap, into the outer conduit, and through the second cap.
  • a conductive tube has a tube inlet fluidly coupled to the outlet of the fluid supply system and a tube outlet fluidly coupled to the inlet of the fluid supply system.
  • the conductive tube passes through the outer conduit, thereby providing a channel through which the circulating fluid can flow from the fluid supply system into the outer conduit via the tube inlet and out of the outer conduit to the fluid supply system via the tube outlet.
  • a static fluid chamber is formed between the conductive tube and the gas transport conduit.
  • the static fluid chamber is configured to house a static fluid.
  • the gas transport conduit is configured to conduct heat from the fluid mixture in the gas transport conduit to the static fluid in the static fluid chamber and the conductive tube is configured to conduct heat from the static fluid in the static fluid chamber to the circulating fluid flowing through the conductive tube.
  • a method of cooling a fluid mixture comprises providing an outer conduit and a conductive tube.
  • the outer conduit is disposed around a gas transport conduit and has a first end, a second end opposite the first end, a first cap covering the first end, and a second cap covering the second end.
  • the gas transport conduit passes through the first cap into the outer conduit and through the second cap.
  • the conductive tube passes through the outer conduit.
  • a static fluid chamber is formed between the conductive tube and the gas transport conduit.
  • the static fluid chamber houses a static fluid.
  • the fluid mixture flows through the gas transport conduit into and out of the outer conduit.
  • a circulating fluid flows through the conductive tube into and out of the outer conduit.
  • the gas transport conduit conducts heat from the fluid mixture in the gas transport conduit to the static fluid in the static fluid chamber.
  • the conductive tube conducts heat from the static fluid in the static fluid chamber to the circulating fluid flowing through the conductive tube.
  • FIG. 1 is a systematic view of one embodiment of a cooling system integrated into a particle processing system in accordance with the principles of the present invention.
  • FIG. 2 is a perspective view of one embodiment of a cooling system in accordance with the principles of the present invention.
  • FIG. 3 is a cross-sectional view of one embodiment of a heat exchanger in accordance with the principles of the present invention.
  • FIG. 4 is a partial cross-sectional view of one embodiment of a heat exchanger in accordance with the principles of the present invention.
  • FIG. 5 is a flowchart illustrating one embodiment of a method of cooling a fluid mixture in accordance with the principles of the present invention.
  • Powders that fall within the scope of the present invention may include, but are not limited to, any of the following: (a) nano-structured powders (nano-powders), having an average grain size less than 250 nanometers and an aspect ratio between one and one million; (b) submicron powders, having an average grain size less than 1 micron and an aspect ratio between one and one million; (c) ultra-fine powders, having an average grain size less than 100 microns and an aspect ratio between one and one million; and (d) fine powders, having an average grain size less than 500 microns and an aspect ratio between one and one million.
  • nano-powders nano-structured powders
  • submicron powders having an average grain size less than 1 micron and an aspect ratio between one and one million
  • ultra-fine powders having an average grain size less than 100 microns and an aspect ratio between one and one million
  • fine powders having an average grain size less than 500 microns and an aspect ratio between one and one million.
  • the particle processing system 100 includes the gas-particle mixture production system 110 coupled with the sampling zone 150 and the vacuum system 160 through the conduit system 120 .
  • the gas-particle mixture production system 110 preferably produces particles entrained within a gas stream and provides the output fluid mixture to the conduit system 120 . It is contemplated that the fluid mixture can be produced in a variety of ways. Some embodiments of the present invention revolve around the use of a nano-powder production reactor. In general, vapor phase nano-powder production means are preferred. The embodiments of the present invention can use elements of nano-powder production systems similar to those disclosed in U.S. patent application Ser. No. 11/110,341, filed on Apr. 19, 2005 and entitled, “HIGH THROUGHPUT DISCOVERY OF MATERIALS THROUGH VAPOR PHASE SYNTHESIS”, which is currently published as U.S. Publication No. 2005-0233380-A.
  • working gas is supplied from a gas source to a plasma reactor.
  • energy is delivered to the working gas, thereby creating a plasma.
  • a variety of different means can be employed to deliver this energy, including, but not limited to, DC coupling, capacitive coupling, inductive coupling, and resonant coupling.
  • One or more material dispensing devices introduce at least one material, preferably in powder form, into the plasma reactor. The combination within the plasma reactor of the plasma and the material(s) introduced by the material dispensing device(s) forms a highly reactive and energetic mixture, wherein the powder can be vaporized. This mixture of vaporized powder moves through the plasma reactor in the flow direction of the working gas.
  • the fluid mixture preferably a gas-particle stream
  • the conduit system 120 where it is conditioned and conducted to the sampling zone 150 .
  • portions of the gas-particle stream are separated and the particles therein isolated for further analysis. It is contemplated that condensed particles can be separated from the gas-particle stream in a variety of ways, including, but not limited to, the use of one or more filters.
  • the bulk of the gas-particle stream flows through the sampling zone and into the vacuum system 160 .
  • the vacuum system 160 functions to draw the gas-particle stream from the production system 110 through the conduit system 120 , forcing it through the sampling zone 150 .
  • the conduit system 120 includes the conduit 140 configured to conduct and condition the gas-particle stream from the production system 110 to the vacuum system 160 .
  • the conditioning performed in the illustrated embodiment consists primarily of the cooling and the maintenance of entrainment of the particles.
  • the gas-particle stream is cooled and its particle entrainment maintained by introduction of conditioning fluid through the port 142 .
  • the gas-particle stream transfers heat to the body of the conduit 140 , which the cooling systems 170 and 180 dissipate.
  • the conditioning fluid reservoir 130 provides conditioning fluid to the port 142 through the supply line 135 .
  • the vacuum system 160 provides a suction force within the conduit 140 , drawing conditioning fluid into the port 142 to cool the gas-particle stream and maintain entrainment of particles therein.
  • the cooling systems 170 and 180 include the heat exchangers 172 and 182 respectively, which are coupled via the fluid lines 176 and 186 to the fluid supply systems 174 and 184 .
  • the fluid supply systems 174 and 184 pump fluid through the heat exchangers 172 and 182 .
  • the fluid heats as it absorbs heat from the heat exchangers 172 and 182 , and exits the heat exchangers 172 and 182 , whereupon it returns to the fluid supply systems 174 and 184 .
  • the fluid supply systems 174 and 184 preferably cool the fluid and again pump it to the heat exchangers 172 and 182 .
  • the cooling system 170 is required to dissipate more heat than the cooling system 180 .
  • Higher rates of fluid flow through a fluid heat exchanger result in higher rates of heat dissipation from that heat exchanger. Therefore, in most circumstances, the rate of fluid flow provided thorough the heat exchanger 172 by the fluid supply system 174 will be higher than correlating flow rate within the cooling system 180 .
  • control system 190 is communicatively coupled with the production system 110 and both cooling systems 170 and 180 , and can control both the general nature of the particle content produced, as well as the cooling of the conduit 140 . Because differing production conditions can lead to different heat loads within the conduit, the control system 190 varies the flow rates within the cooling systems 170 and 180 according to the expected heat load given current production conditions. Furthermore, the control system 190 varies the flow rates based on the temperature of the fluid sensed on output by an optional temperature sensor 192 from each heat exchanger 172 and 182 .
  • the cooling system 200 incorporates the fluid supply system 220 , and the heat exchanger 230 formed around the gas transport conduit 210 .
  • the heat exchanger 230 comprises the caps 231 and 233 , with the outer conduit 232 disposed there-between.
  • the fluid supply system 220 pumps fluid from an outlet 225 and takes fluid into an inlet 224 .
  • the cap 231 includes an inlet 237 , and a pressure relief valve 235 .
  • the inlet 237 is in fluid communication with a tube structure (discussed below with respect to FIGS. 3-4 ) disposed inside of the outer conduit 232 and allows fluid to enter the heat exchanger 230 .
  • the cap 233 includes an outlet 236 , which allows fluid to exit the heat exchanger 230 .
  • the inlet and outlet are reversed.
  • the fluid supply system 220 pumps fluid from is outlet 225 through the fluid line 223 into the inlet 237 . Fluid flows through the tube structure within the heat exchanger 230 from the inlet 237 . Within the heat exchanger 230 , the fluid is heated prior to flowing from the outlet 236 . Fluid flowing out of the outlet 236 is channeled through the fluid line 222 into the inlet 224 of the fluid supply system. Because the fluid entering the inlet 224 is preferably hotter than the fluid pumped from the outlet 225 , the fluid supply system 220 is preferably configured to cool the received fluid, such as by use of a refrigeration or other cooling system. Because fluid may expand rapidly when heated, the pressure relief valve 235 is provided to relieve pressure within the heat exchanger 230 by permitting outflow of fluid during periods when pressure exceeds a predetermined threshold value. The pressure relief valve can also be mounted through a wall of the outer conduit.
  • the heat exchanger 300 includes the outer conduit 340 sealed to the gas transport conduit 310 via the caps 320 and 330 .
  • the gas transport conduit 310 and the outer conduit 340 form there-between a toroidal chamber 360 .
  • a conductive tube structure 350 is fluidly coupled to a fluid supply system, such as discussed above, thereby allowing fluid to flow from the fluid supply system into and out of the outer conduit 340 via the conductive tube structure 35 , and back to the fluid supply system.
  • the conductive tube structure 350 is preferably curved in order to form the toroidal shape of the chamber 360 .
  • a static fluid is placed within the space left within the toroidal chamber 360 by the conductive tube structure 350 .
  • As fluid flows through the conductive tube structure 350 it intimately contacts the conductive tube structure 350 , which is intimately contacted by the static fluid within the toroidal chamber 360 , which in turn is also in intimate contact with the gas transport conduit 310 .
  • hot gas flows through the gas transport conduit 310 , thereby heating the gas transport conduit 310 .
  • Heat is dissipated from the gas transport conduit 310 through the static fluid within the toroidal chamber 360 , into the heat conductive tube structure 350 , and then into the fluid flowing there-within.
  • the heat exchanger 400 includes the outer conduit 440 sealed to the gas transport conduit 410 via the caps 420 and 430 .
  • the gas transport conduit 410 and the outer conduit 440 form there-between a toroidal chamber 460 .
  • a conductive tube structure 450 is fluidly coupled to a fluid supply system, such as discussed above, thereby allowing fluid to flow from the fluid supply system into and out of the outer conduit 440 via the conductive tube structure 450 , and back to the fluid supply system.
  • the conductive tube structure 450 is preferably wound spirally around the gas transport conduit 410 , thereby forming the toroidal shape of the chamber 460 .
  • a static fluid is placed within the space left within the toroidal chamber 460 by the conductive tube structure 450 .
  • As fluid flows through the conductive tube structure 450 it intimately contacts the conductive tube structure 450 , which is intimately contacted by the static fluid within the toroidal chamber 460 , which in turn is also in intimate contact with the gas transport conduit 410 .
  • hot gas flows through the gas transport conduit 410 , thereby heating the gas transport conduit 410 . Heat is dissipated from the gas transport conduit 410 through the static fluid within the toroidal chamber 460 , into the heat conductive tube structure 450 , and then into the fluid flowing there-within.
  • FIG. 5 is a flowchart illustrating one embodiment of a method 500 of cooling a fluid mixture in accordance with the principles of the present invention.
  • the protocols, processes, and procedures described herein may be repeated continuously or as often as necessary to satisfy the needs described herein. Additionally, although the steps of method 500 are shown in a specific order, certain steps may occur simultaneously or in a different order than is illustrated. Accordingly, the method steps of the present invention should not be limited to any particular order unless either explicitly or implicitly stated in the claims.
  • a cooling system having a fluid supply system fluidly coupled to a heat exchanger.
  • the heat exchanger comprises an outer conduit and a conductive tube.
  • the outer conduit is disposed around a gas transport conduit and has a first end, a second end opposite the first end, a first cap covering the first end, and a second cap covering the second end.
  • the gas transport conduit passes through the first cap into the outer conduit and through the second cap out of the outer conduit.
  • the conductive tube passes through the outer conduit. It is contemplated that the conductive tube can pass through portions of the heat exchanger other than the first cap and the second cap in order to pass through the outer conduit.
  • a static fluid chamber is formed between the conductive tube and the gas transport conduit, the static fluid chamber housing a static fluid.
  • a mixture production system produces a fluid mixture.
  • the mixture production system is fluidly coupled to the gas transport conduit. It is contemplated that the fluid mixture can be produced in a variety of ways. However, in a preferred embodiment, the mixture production system energizes a working gas, thereby forming a plasma stream, and applies the plasma stream to powder particles, thereby vaporizing the powder particles and forming the fluid mixture, which comprises vaporized particles.
  • the fluid mixture flows through the gas transport conduit into and out of the outer conduit of the heat exchanger.
  • a circulating fluid flows through the conductive tube into and out of the outer conduit of the heat exchanger. It is noted that this step can occur at the same time that the fluid mixture flows through the heat exchanger at step 530 .
  • the gas transport conduit conducts heat from the fluid mixture in the gas transport conduit to the static fluid in the static fluid chamber.
  • the conductive tube conducts heat from the static fluid in the static fluid chamber to the circulating fluid flowing through the conductive tube.
  • the heated circulating fluid flows out of the heat exchanger.
  • the circulating fluid flows back to the fluid supply system, where it is preferably cooled before being recirculated back into the heat exchanger upon repetition of the process.

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US12/151,767 2005-04-19 2008-05-08 Water cooling system and heat transfer system Abandoned US20080277092A1 (en)

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US11/110,341 US20050233380A1 (en) 2004-04-19 2005-04-19 High throughput discovery of materials through vapor phase synthesis
US92894607P 2007-05-11 2007-05-11
US12/151,767 US20080277092A1 (en) 2005-04-19 2008-05-08 Water cooling system and heat transfer system

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US12/151,767 Abandoned US20080277092A1 (en) 2005-04-19 2008-05-08 Water cooling system and heat transfer system
US12/151,807 Expired - Fee Related US8051724B1 (en) 2007-05-11 2008-05-08 Long cool-down tube with air input joints
US12/151,932 Expired - Fee Related US7678419B2 (en) 2007-05-11 2008-05-08 Formation of catalytic regions within porous structures using supercritical phase processing
US12/151,805 Expired - Fee Related US9173967B1 (en) 2007-05-11 2008-05-08 System for and method of processing soft tissue and skin with fluids using temperature and pressure changes
US12/151,935 Active 2033-07-01 US9180423B2 (en) 2005-04-19 2008-05-08 Highly turbulent quench chamber
US12/151,766 Expired - Fee Related US8142619B2 (en) 2007-05-11 2008-05-08 Shape of cone and air input annulus
US12/151,840 Expired - Fee Related US8007718B1 (en) 2007-05-11 2008-05-08 System for and method of processing bone material using supercritical fluids
US12/151,841 Expired - Fee Related US8945219B1 (en) 2007-05-11 2008-05-08 System for and method of introducing additives to biological materials using supercritical fluids
US12/151,765 Expired - Fee Related US8574408B2 (en) 2005-04-19 2008-05-08 Fluid recirculation system for use in vapor phase particle production system
US12/151,830 Active 2032-05-10 US8893651B1 (en) 2007-05-11 2008-05-08 Plasma-arc vaporization chamber with wide bore
US12/152,095 Expired - Fee Related US7905942B1 (en) 2007-05-11 2008-05-09 Microwave purification process
US12/151,860 Active 2029-04-07 US7897127B2 (en) 2007-05-11 2008-05-09 Collecting particles from a fluid stream via thermophoresis
US12/152,097 Active 2032-08-29 US9132404B2 (en) 2005-04-19 2008-05-09 Gas delivery system with constant overpressure relative to ambient to system with varying vacuum suction
US12/152,098 Expired - Fee Related US8076258B1 (en) 2007-05-11 2008-05-09 Method and apparatus for making recyclable catalysts
US12/152,096 Expired - Fee Related US8663571B2 (en) 2005-04-19 2008-05-09 Method and apparatus for making uniform and ultrasmall nanoparticles
US12/152,109 Expired - Fee Related US8524631B2 (en) 2005-04-19 2008-05-09 Nano-skeletal catalyst
US12/879,853 Active 2028-10-10 US8956574B2 (en) 2007-05-11 2010-09-10 Gas delivery system with constant overpressure relative to ambient to system with varying vacuum suction
US12/943,909 Expired - Fee Related US8604398B1 (en) 2007-05-11 2010-11-10 Microwave purification process
US13/289,955 Abandoned US20120045373A1 (en) 2007-05-11 2011-11-04 Method and apparatus for making recyclable catalysts
US13/291,983 Abandoned US20120285548A1 (en) 2007-05-11 2011-11-08 Long cool-down tube with air input joints
US13/907,667 Active US8906316B2 (en) 2005-04-19 2013-05-31 Fluid recirculation system for use in vapor phase particle production system
US13/954,614 Active US9023754B2 (en) 2005-04-19 2013-07-30 Nano-skeletal catalyst
US14/165,438 Active US9216398B2 (en) 2005-04-19 2014-01-27 Method and apparatus for making uniform and ultrasmall nanoparticles
US14/542,377 Expired - Fee Related US9719727B2 (en) 2005-04-19 2014-11-14 Fluid recirculation system for use in vapor phase particle production system
US14/682,978 Abandoned US20150314260A1 (en) 2005-04-19 2015-04-09 Nano-skeletal catalyst
US14/750,857 Abandoned US20150367331A1 (en) 2005-04-19 2015-06-25 Nano-skeletal catalyst
US14/880,953 Expired - Fee Related US9599405B2 (en) 2005-04-19 2015-10-12 Highly turbulent quench chamber

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US12/151,807 Expired - Fee Related US8051724B1 (en) 2007-05-11 2008-05-08 Long cool-down tube with air input joints
US12/151,932 Expired - Fee Related US7678419B2 (en) 2007-05-11 2008-05-08 Formation of catalytic regions within porous structures using supercritical phase processing
US12/151,805 Expired - Fee Related US9173967B1 (en) 2007-05-11 2008-05-08 System for and method of processing soft tissue and skin with fluids using temperature and pressure changes
US12/151,935 Active 2033-07-01 US9180423B2 (en) 2005-04-19 2008-05-08 Highly turbulent quench chamber
US12/151,766 Expired - Fee Related US8142619B2 (en) 2007-05-11 2008-05-08 Shape of cone and air input annulus
US12/151,840 Expired - Fee Related US8007718B1 (en) 2007-05-11 2008-05-08 System for and method of processing bone material using supercritical fluids
US12/151,841 Expired - Fee Related US8945219B1 (en) 2007-05-11 2008-05-08 System for and method of introducing additives to biological materials using supercritical fluids
US12/151,765 Expired - Fee Related US8574408B2 (en) 2005-04-19 2008-05-08 Fluid recirculation system for use in vapor phase particle production system
US12/151,830 Active 2032-05-10 US8893651B1 (en) 2007-05-11 2008-05-08 Plasma-arc vaporization chamber with wide bore
US12/152,095 Expired - Fee Related US7905942B1 (en) 2007-05-11 2008-05-09 Microwave purification process
US12/151,860 Active 2029-04-07 US7897127B2 (en) 2007-05-11 2008-05-09 Collecting particles from a fluid stream via thermophoresis
US12/152,097 Active 2032-08-29 US9132404B2 (en) 2005-04-19 2008-05-09 Gas delivery system with constant overpressure relative to ambient to system with varying vacuum suction
US12/152,098 Expired - Fee Related US8076258B1 (en) 2007-05-11 2008-05-09 Method and apparatus for making recyclable catalysts
US12/152,096 Expired - Fee Related US8663571B2 (en) 2005-04-19 2008-05-09 Method and apparatus for making uniform and ultrasmall nanoparticles
US12/152,109 Expired - Fee Related US8524631B2 (en) 2005-04-19 2008-05-09 Nano-skeletal catalyst
US12/879,853 Active 2028-10-10 US8956574B2 (en) 2007-05-11 2010-09-10 Gas delivery system with constant overpressure relative to ambient to system with varying vacuum suction
US12/943,909 Expired - Fee Related US8604398B1 (en) 2007-05-11 2010-11-10 Microwave purification process
US13/289,955 Abandoned US20120045373A1 (en) 2007-05-11 2011-11-04 Method and apparatus for making recyclable catalysts
US13/291,983 Abandoned US20120285548A1 (en) 2007-05-11 2011-11-08 Long cool-down tube with air input joints
US13/907,667 Active US8906316B2 (en) 2005-04-19 2013-05-31 Fluid recirculation system for use in vapor phase particle production system
US13/954,614 Active US9023754B2 (en) 2005-04-19 2013-07-30 Nano-skeletal catalyst
US14/165,438 Active US9216398B2 (en) 2005-04-19 2014-01-27 Method and apparatus for making uniform and ultrasmall nanoparticles
US14/542,377 Expired - Fee Related US9719727B2 (en) 2005-04-19 2014-11-14 Fluid recirculation system for use in vapor phase particle production system
US14/682,978 Abandoned US20150314260A1 (en) 2005-04-19 2015-04-09 Nano-skeletal catalyst
US14/750,857 Abandoned US20150367331A1 (en) 2005-04-19 2015-06-25 Nano-skeletal catalyst
US14/880,953 Expired - Fee Related US9599405B2 (en) 2005-04-19 2015-10-12 Highly turbulent quench chamber

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