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公开(公告)号:US20130186607A1
公开(公告)日:2013-07-25
申请号:US13747440
申请日:2013-01-22
Applicant: James A. Mathias , G. Bradley Chadwell , Dongming Qiu , Annalee Y. Tonkovich , Steven T. Perry , Matthew B. Schmidt , Sean P. Fitzgerald , David J. Hesse , Thomas D. Yuschak , Bin Yang
Inventor: James A. Mathias , G. Bradley Chadwell , Dongming Qiu , Annalee Y. Tonkovich , Steven T. Perry , Matthew B. Schmidt , Sean P. Fitzgerald , David J. Hesse , Thomas D. Yuschak , Bin Yang
IPC: F28F3/12
CPC classification number: F16L41/02 , B01J19/0093 , B01J35/04 , B01J2219/00869 , B01J2219/00891 , C01B3/384 , C01B2203/0233 , C01B2203/0811 , C01B2203/0822 , F28D7/0066 , F28D9/0093 , F28F3/12 , F28F7/02 , F28F2260/02 , Y02P20/128 , Y02P20/52 , Y10T137/0318 , Y10T137/6579 , Y10T137/87153 , Y10T137/87249
Abstract: Provided is a process and device for exchanging heat energy between three or more streams in a microchannel heat exchanger which can be integrated with a microchannel reactor to form an integrated microchannel processing unit. The combining of a plurality of integrated microchannel devices to provide the benefits of large-scale operation is enabled. In particular, the microchannel heat exchanger enables flexible heat transfer between multiple streams and total heat transfer rates of about 1 Watt or more per core unit volume expressed as W/cc.
Abstract translation: 提供了一种用于在微通道热交换器中的三个或更多个流之间交换热能的过程和装置,其可以与微通道反应器集成以形成集成的微通道处理单元。 实现了多个集成微通道装置的组合以提供大规模操作的优点。 特别地,微通道热交换器使得能够在多个流之间实现柔性热传递,并且以W / cc表示的每单位体积的约1瓦或更高的总传热速率。
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2.发明授权公开(公告)号:US08383054B2
公开(公告)日:2013-02-26
申请号:US13093832
申请日:2011-04-25
Applicant: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Paul W. Neagle , Dongming Qiu , Matthew B. Schmidt , Steven T. Perry , David J. Hesse , Robert J. Luzenski , G. Bradley Chadwell , Ying Peng , James A. Mathias , Nathan P. Gano , Richard Q. Long , Wm. Allen Rogers , Ravi Arora , Wayne W. Simmons , Barry L. Yang , David J. Kuhlmann , Yong Wang , Thomas D. Yuschak , Thomas Forte , John Arthur Monahan , Robert Jetter
Inventor: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Paul W. Neagle , Dongming Qiu , Matthew B. Schmidt , Steven T. Perry , David J. Hesse , Robert J. Luzenski , G. Bradley Chadwell , Ying Peng , James A. Mathias , Nathan P. Gano , Richard Q. Long , Wm. Allen Rogers , Ravi Arora , Wayne W. Simmons , Barry L. Yang , David J. Kuhlmann , Yong Wang , Thomas D. Yuschak , Thomas Forte , John Arthur Monahan , Robert Jetter
CPC classification number: F23C13/00 , B01J19/0093 , B01J2219/00117 , B01J2219/00164 , B01J2219/00783 , B01J2219/0081 , B01J2219/00835 , B01J2219/00873 , B01J2219/00984 , C01B3/382 , C01B3/384 , C01B2203/0233 , C01B2203/0811 , C01B2203/0822 , C01B2203/142 , F23C99/006 , F23C2900/03001 , F23C2900/03002 , F28D9/0093 , F28F2260/02 , Y02P20/128 , Y02P20/52 , Y10T156/10
Abstract: Integrated Combustion Reactors (ICRs) and methods of making ICRs are described in which combustion chambers (or channels) are in direct thermal contact to reaction chambers for an endothermic reaction. Particular reactor designs are also described. Processes of conducting reactions in integrated combustion reactors are described and results presented. Some of these processes are characterized by unexpected and superior results, and/or results that can not be achieved with any prior art devices.
Abstract translation: 描述了集成燃烧反应器(ICR)和制造ICR的方法,其中燃烧室(或通道)与用于吸热反应的反应室直接热接触。 还描述了特定的反应器设计。 介绍了综合燃烧反应器中进行反应的过程,并提出了结果。 这些过程中的一些特征在于意想不到的和优异的结果,和/或不能用任何现有技术装置实现的结果。
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3.发明申请公开(公告)号:US20110300039A1
公开(公告)日:2011-12-08
申请号:US13093832
申请日:2011-04-25
Applicant: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Paul W. Neagle , Dongming Qiu , Matthew B. Schmidt , Steven T. Perry , David J. Hesse , Robert J. Luzenski , G. Bradley Chadwell , Ying Peng , James A. Mathias , Nathan P. Gano , Richard Q. Long , Wm. Allen Rogers , Ravi Arora , Wayne W. Simmons , Barry L. Yang , David J. Kuhlmann , Yong Wang , Thomas D. Yuschak , Thomas Forte , John Arthur Monahan , Robert Jetter
Inventor: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Paul W. Neagle , Dongming Qiu , Matthew B. Schmidt , Steven T. Perry , David J. Hesse , Robert J. Luzenski , G. Bradley Chadwell , Ying Peng , James A. Mathias , Nathan P. Gano , Richard Q. Long , Wm. Allen Rogers , Ravi Arora , Wayne W. Simmons , Barry L. Yang , David J. Kuhlmann , Yong Wang , Thomas D. Yuschak , Thomas Forte , John Arthur Monahan , Robert Jetter
IPC: B01J19/00
CPC classification number: F23C13/00 , B01J19/0093 , B01J2219/00117 , B01J2219/00164 , B01J2219/00783 , B01J2219/0081 , B01J2219/00835 , B01J2219/00873 , B01J2219/00984 , C01B3/382 , C01B3/384 , C01B2203/0233 , C01B2203/0811 , C01B2203/0822 , C01B2203/142 , F23C99/006 , F23C2900/03001 , F23C2900/03002 , F28D9/0093 , F28F2260/02 , Y02P20/128 , Y02P20/52 , Y10T156/10
Abstract: Integrated Combustion Reactors (ICRs) and methods of making ICRs are described in which combustion chambers (or channels) are in direct thermal contact to reaction chambers for an endothermic reaction. Particular reactor designs are also described. Processes of conducting reactions in integrated combustion reactors are described and results presented. Some of these processes are characterized by unexpected and superior results, and/or results that can not be achieved with any prior art devices.
Abstract translation: 描述了集成燃烧反应器(ICR)和制造ICR的方法,其中燃烧室(或通道)与用于吸热反应的反应室直接热接触。 还描述了特定的反应器设计。 介绍了综合燃烧反应器中进行反应的过程,并提出了结果。 这些过程中的一些特征在于意想不到的和优异的结果,和/或不能用任何现有技术装置实现的结果。
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4.发明授权公开(公告)号:US07931875B2
公开(公告)日:2011-04-26
申请号:US11825286
申请日:2007-07-03
Applicant: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Paul W. Neagle , Dongming Qiu , Matthew B. Schmidt , Steven T. Perry , David J. Hesse , Robert J. Luzenski , G. Bradley Chadwell , Ying Peng , James A. Mathias , Nathan P. Gano , Ravi Arora , Barry L. Yang , David J. Kuhlmann , Thomas D. Yuschak , John Arthur Monahan
Inventor: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Paul W. Neagle , Dongming Qiu , Matthew B. Schmidt , Steven T. Perry , David J. Hesse , Robert J. Luzenski , G. Bradley Chadwell , Ying Peng , James A. Mathias , Nathan P. Gano , Ravi Arora , Barry L. Yang , David J. Kuhlmann , Thomas D. Yuschak , John Arthur Monahan
CPC classification number: F23C13/00 , B01J19/0093 , B01J2219/00117 , B01J2219/00164 , B01J2219/00783 , B01J2219/0081 , B01J2219/00835 , B01J2219/00873 , B01J2219/00984 , C01B3/382 , C01B3/384 , C01B2203/0233 , C01B2203/0811 , C01B2203/0822 , C01B2203/142 , F23C99/006 , F23C2900/03001 , F23C2900/03002 , F28D9/0093 , F28F2260/02 , Y02P20/128 , Y02P20/52 , Y10T156/10
Abstract: Integrated Combustion Reactors (ICRs) and methods of making ICRs are described in which combustion chambers (or channels) are in direct thermal contact to reaction chambers for an endothermic reaction. Particular reactor designs are also described. Processes of conducting reactions in integrated combustion reactors are described and results presented. Some of these processes are characterized by unexpected and superior results, and/or results that can not be achieved with any prior art devices.
Abstract translation: 描述了集成燃烧反应器(ICR)和制造ICR的方法,其中燃烧室(或通道)与用于吸热反应的反应室直接热接触。 还描述了特定的反应器设计。 介绍了综合燃烧反应器中进行反应的过程,并提出了结果。 这些过程中的一些特征在于意想不到的和优异的结果,和/或不能用任何现有技术装置实现的结果。
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公开(公告)号:US07780944B2
公开(公告)日:2010-08-24
申请号:US11300914
申请日:2005-12-15
Applicant: James A. Mathias , G. Bradley Chadwell , Dongming Qiu , Annalee Y. Tonkovich , Steven T. Perry , Matthew B. Schmidt , Sean P. Fitzgerald , David J. Hesse , Thomas D. Yuschak , Bin Yang
Inventor: James A. Mathias , G. Bradley Chadwell , Dongming Qiu , Annalee Y. Tonkovich , Steven T. Perry , Matthew B. Schmidt , Sean P. Fitzgerald , David J. Hesse , Thomas D. Yuschak , Bin Yang
CPC classification number: F16L41/02 , B01J19/0093 , B01J35/04 , B01J2219/00869 , B01J2219/00891 , C01B3/384 , C01B2203/0233 , C01B2203/0811 , C01B2203/0822 , F28D7/0066 , F28D9/0093 , F28F3/12 , F28F7/02 , F28F2260/02 , Y02P20/128 , Y02P20/52 , Y10T137/0318 , Y10T137/6579 , Y10T137/87153 , Y10T137/87249
Abstract: The invention is a process and device for exchanging heat energy between three or more streams in a microchannel heat exchanger which can be integrated with a microchannel reactor to form an integrated microchannel processing unit. The invention enables the combining of a plurality of integrated microchannel devices to provide the benefits of large-scale operation. In particular, the microchannel heat exchanger of the present invention enables flexible heat transfer between multiple streams and total heat transfer rates of about 1 Watt or more per core unit volume expressed as W/cc.
Abstract translation: 本发明是一种用于在微通道热交换器中的三个或更多个流之间交换热能的方法和装置,其可以与微通道反应器集成以形成集成的微通道处理单元。 本发明使得能够组合多个集成微通道装置以提供大规模操作的优点。 特别地,本发明的微通道热交换器能够在多个流之间实现柔性热传递,并且以W / cc表示的每单位体积的约1瓦特或更高的总传热速率。
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Patent Agency Ranking
6.发明授权Process for cooling a product in a heat exchanger employing microchannels for the flow of refrigerant and product 有权在使用微通道用于制冷剂和产品流动的热交换器中冷却产品的方法公开(公告)号:US06622519B1
公开(公告)日:2003-09-23
申请号:US10219990
申请日:2002-08-15
Applicant: James A. Mathias , Ravi Arora , Wayne W. Simmons , Jeffrey S. McDaniel , Anna Lee Tonkovich , William A. Krause , Laura J. Silva
Inventor: James A. Mathias , Ravi Arora , Wayne W. Simmons , Jeffrey S. McDaniel , Anna Lee Tonkovich , William A. Krause , Laura J. Silva
IPC: F25J100
CPC classification number: F25J1/0022 , F25J1/0052 , F25J1/0207 , F25J1/0212 , F25J1/0262 , F25J1/0276 , F25J5/002 , F25J2290/20 , F25J2290/32 , F25J2290/44 , F28D9/0037 , F28D9/0093 , F28F3/048 , F28F2250/104 , F28F2260/02
Abstract: This invention relates to a process for cooling a product in a heat exchanger, the process comprising: flowing a refrigerant through a set of first microchannels in the heat exchanger; flowing a refrigerant through a set of second microchannels in the heat exchanger, the refrigerant flowing through the set of second microchannels being at a lower temperature, a lower pressure or both a lower temperature and a lower pressure than the refrigerant flowing through the set of first microchannels; and flowing a product through a set of third microchannels in the heat exchanger, the product exiting the set of third microchannels having a cooler temperature than the product entering the set of third microchannels. This process is suitable for liquefying gaseous products including natural gas.
Abstract translation: 本发明涉及一种在热交换器中冷却产品的方法,该方法包括:使制冷剂流过热交换器中的一组第一微通道; 使制冷剂流过热交换器中的一组第二微通道,流过该组第二微通道的制冷剂处于比流过该组第一微通道的制冷剂更低的温度,更低的压力或更低的温度和更低的压力 微通道 并且使产品流过热交换器中的一组第三微通道,离开该组第三微通道的产品具有比进入该组第三微通道的产品更冷的温度。 该方法适用于液化包括天然气在内的气态产物。
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公开(公告)号:US07250151B2
公开(公告)日:2007-07-31
申请号:US10222196
申请日:2002-08-15
Applicant: Anna Lee Tonkovich , Sean P. Fitzgerald , Paul W. Neagle , Dongming Qiu , Matthew B. Schmidt , Steven T. Perry , David J. Hesse , Robert J. Luzenski , G. Bradley Chadwell , Ying Peng , James A. Mathias , Richard Q. Long , Wm. Allen Rogers , Ravi Arora , Wayne W. Simmons , Barry L. Yang , Yong Wang , Thomas Forte , Robert Jetter
Inventor: Anna Lee Tonkovich , Sean P. Fitzgerald , Paul W. Neagle , Dongming Qiu , Matthew B. Schmidt , Steven T. Perry , David J. Hesse , Robert J. Luzenski , G. Bradley Chadwell , Ying Peng , James A. Mathias , Richard Q. Long , Wm. Allen Rogers , Ravi Arora , Wayne W. Simmons , Barry L. Yang , Yong Wang , Thomas Forte , Robert Jetter
IPC: C01B3/24
CPC classification number: F23C13/00 , B01J19/0093 , B01J2219/00117 , B01J2219/00164 , B01J2219/00783 , B01J2219/0081 , B01J2219/00835 , B01J2219/00873 , B01J2219/00984 , C01B3/382 , C01B3/384 , C01B2203/0233 , C01B2203/0811 , C01B2203/0822 , C01B2203/142 , F23C99/006 , F23C2900/03001 , F23C2900/03002 , F28D9/0093 , F28F2260/02 , Y02P20/128 , Y02P20/52 , Y10T156/10
Abstract: Integrated Combustion Reactors (ICRS) and methods of making ICRs are described in which combustion chambers (or channels) are in direct thermal contact to reaction chambers for an endothermic reaction. Particular reactor designs are also described. Processes of conducting reactions in integrated combustion reactors are described and results presented. Some of these processes are characterized by unexpected and superior results, and/or results that can not be achieved with any prior art devices.
Abstract translation: 描述了集成燃烧反应器(ICRS)和制造ICR的方法,其中燃烧室(或通道)与用于吸热反应的反应室直接热接触。 还描述了特定的反应器设计。 介绍了综合燃烧反应器中进行反应的过程,并提出了结果。 这些过程中的一些特征在于意想不到的和优异的结果,和/或不能用任何现有技术装置实现的结果。
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8.发明授权Microchannel apparatus, methods of making microchannel apparatus, and processes of conducting unit operations 有权微通道装置,制造微通道装置的方法以及进行单元操作的处理公开(公告)号:US06989134B2
公开(公告)日:2006-01-24
申请号:US10306722
申请日:2002-11-27
Applicant: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Timothy M. Werner , Matthew B. Schmidt , Robert J. Luzenski , G. Bradley Chadwell , James A. Mathias , Abhishek Gupta , David J. Kuhlmann , Thomas D. Yuschak
Inventor: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Timothy M. Werner , Matthew B. Schmidt , Robert J. Luzenski , G. Bradley Chadwell , James A. Mathias , Abhishek Gupta , David J. Kuhlmann , Thomas D. Yuschak
CPC classification number: B01J19/0093 , B01F5/061 , B01F13/0059 , B01J2219/00783 , B01J2219/00835 , B01J2219/00873 , B23K20/023 , B23K31/02 , F28D9/0062 , F28F3/048 , F28F13/06 , F28F2260/02
Abstract: Novel methods of making laminated, microchannel devices are described. Examples include: assembly from thin strips rather than sheets; and hot isostatic pressing (HIPing) to form devices with a hermetically sealed wall. Laminated microchannel articles having novel features are also described. The invention includes processes conducted using any of the articles described.
Abstract translation: 描述了制造层压的微通道装置的新方法。 示例包括:从薄条组装而不是片; 和热等静压(HIPing)以形成具有密封壁的装置。 还描述了具有新颖特征的层压微通道制品。 本发明包括使用所描述的任何物品进行的方法。
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公开(公告)号:US09452407B2
公开(公告)日:2016-09-27
申请号:US11255633
申请日:2005-10-24
Applicant: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Timothy M. Werner , Matthew B. Schmidt , Robert J. Luzenski , G. Bradley Chadwell , James A. Mathias , Abhishek Gupta , David J. Kuhlmann , Thomas D. Yuschak
Inventor: Anna Lee Tonkovich , Gary Roberts , Sean P. Fitzgerald , Timothy M. Werner , Matthew B. Schmidt , Robert J. Luzenski , G. Bradley Chadwell , James A. Mathias , Abhishek Gupta , David J. Kuhlmann , Thomas D. Yuschak
IPC: B21D39/00 , B23K31/02 , B01J19/00 , B01F5/06 , B01F13/00 , B23K20/02 , F28D9/00 , F28F3/04 , F28F13/06
CPC classification number: B01J19/0093 , B01F5/061 , B01F13/0059 , B01J2219/00783 , B01J2219/00835 , B01J2219/00873 , B23K20/023 , B23K31/02 , F28D9/0062 , F28F3/048 , F28F13/06 , F28F2260/02
Abstract: Novel methods of making laminated, microchannel devices are described. Examples include: assembly from thin strips rather than sheets; and hot isostatic pressing (HIPing) to form devices with a hermetically sealed wall. Laminated microchannel articles having novel features are also described. The invention includes processes conducted using any of the articles described.
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公开(公告)号:US08685365B2
公开(公告)日:2014-04-01
申请号:US13747440
申请日:2013-01-22
Applicant: James A. Mathias , G. Bradley Chadwell , Annalee Y. Tonkovich , Steven T. Perry , Matthew B. Schmidt , Sean P. Fitzgerald , David J. Hesse , Thomas D. Yuschak , Bin Yang
Inventor: James A. Mathias , G. Bradley Chadwell , Dongming Qiu , Annalee Y. Tonkovich , Steven T. Perry , Matthew B. Schmidt , Sean P. Fitzgerald , David J. Hesse , Thomas D. Yuschak , Bin Yang
CPC classification number: F16L41/02 , B01J19/0093 , B01J35/04 , B01J2219/00869 , B01J2219/00891 , C01B3/384 , C01B2203/0233 , C01B2203/0811 , C01B2203/0822 , F28D7/0066 , F28D9/0093 , F28F3/12 , F28F7/02 , F28F2260/02 , Y02P20/128 , Y02P20/52 , Y10T137/0318 , Y10T137/6579 , Y10T137/87153 , Y10T137/87249
Abstract: Provided is a process and device for exchanging heat energy between three or more streams in a microchannel heat exchanger which can be integrated with a microchannel reactor to form an integrated microchannel processing unit. The combining of a plurality of integrated microchannel devices to provide the benefits of large-scale operation is enabled. In particular, the microchannel heat exchanger enables flexible heat transfer between multiple streams and total heat transfer rates of about 1 Watt or more per core unit volume expressed as W/cc.
Abstract translation: 提供了一种用于在微通道热交换器中的三个或更多个流之间交换热能的过程和装置,其可以与微通道反应器集成以形成集成的微通道处理单元。 实现了多个集成微通道装置的组合以提供大规模操作的优点。 特别地,微通道热交换器使得能够在多个流之间实现柔性热传递,并且以W / cc表示的每单位体积的约1瓦或更高的总传热速率。
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