公开(公告)号：US20120058063A1

公开(公告)日：2012-03-08

申请号：US13281889

申请日：2011-10-26

Applicant: Anna Lee Tonkovich ,  Ravi Arora ,  David Kilanowski ,  Eric Daymo

Inventor： Anna Lee Tonkovich ,  Ravi Arora ,  David Kilanowski ,  Eric Daymo

IPC: A61K45/00 ,  C07C43/02 ,  C07C233/00 ,  C07C69/96 ,  C07C69/34 ,  A01N61/00 ,  A01P17/00 ,  A61P17/00 ,  A61Q17/04 ,  A61Q15/00 ,  C08F10/00 ,  C08F36/00 ,  C08F20/06 ,  C08F20/10 ,  C08F18/08 ,  C08F12/08 ,  C08F20/44 ,  C08F22/30 ,  C08F14/26 ,  C08F110/02 ,  C08F110/06 ,  C08F236/10 ,  C08F120/18 ,  C09B69/00 ,  C09K3/00 ,  A61K8/96

CPC classification number: B01J19/0093 ,  B01F3/0807 ,  B01F5/0475 ,  B01F13/0059 ,  B01F15/065 ,  B01J2219/00835 ,  B01J2219/00837 ,  B01J2219/00844 ,  B01J2219/0086 ,  B01J2219/00873 ,  B01J2219/00889 ,  B01J2219/00891 ,  F28D7/0025 ,  F28D9/0081 ,  F28F3/086 ,  F28F2260/02 ,  Y10T137/0335 ,  Y10T137/2506

Abstract: The disclosed invention relates to a process, comprising: conducting unit operations in at least two process zones in a process microchannel to treat and/or form a non-Newtonian fluid, a different unit operation being conducted in each process zone; and applying an effective amount of shear stress to the non-Newtonian fluid to reduce the viscosity of the non-Newtonian fluid in each process zone, the average shear rate in one process zone differing from the average shear rate in another process zone by a factor of at least about 1.2.

Abstract translation: 所公开的发明涉及一种方法，包括：在处理微通道中的至少两个处理区中进行单元操作以处理和/或形成非牛顿流体，在每个处理区中进行不同的单元操作; 并且向非牛顿流体施加有效量的剪切应力以降低每个工艺区域中的非牛顿流体的粘度，一个工艺区域中的平均剪切速率与另一工艺区域中的平均剪切速率不同， 至少约1.2。

公开(公告)号：US08048383B2

公开(公告)日：2011-11-01

申请号：US11737955

申请日：2007-04-20

Applicant: Anna Lee Tonkovich ,  Ravi Arora ,  David Kilanowski ,  Eric Daymo

Inventor： Anna Lee Tonkovich ,  Ravi Arora ,  David Kilanowski ,  Eric Daymo

IPC: G05D24/00

CPC classification number: B01J19/0093 ,  B01F3/0807 ,  B01F5/0475 ,  B01F13/0059 ,  B01F15/065 ,  B01J2219/00835 ,  B01J2219/00837 ,  B01J2219/00844 ,  B01J2219/0086 ,  B01J2219/00873 ,  B01J2219/00889 ,  B01J2219/00891 ,  F28D7/0025 ,  F28D9/0081 ,  F28F3/086 ,  F28F2260/02 ,  Y10T137/0335 ,  Y10T137/2506

Abstract: The disclosed invention relates to a process, comprising: conducting unit operations in at least two process zones in a process microchannel to treat and/or form a non-Newtonian fluid, a different unit operation being conducted in each process zone; and applying an effective amount of shear stress to the non-Newtonian fluid to reduce the viscosity of the non-Newtonian fluid in each process zone, the average shear rate in one process zone differing from the average shear rate in another process zone by a factor of at least about 1.2.

Abstract translation: 所公开的发明涉及一种方法，包括：在处理微通道中的至少两个处理区中进行单元操作以处理和/或形成非牛顿流体，在每个处理区中进行不同的单元操作; 并且向非牛顿流体施加有效量的剪切应力以降低每个工艺区域中的非牛顿流体的粘度，一个工艺区域中的平均剪切速率与另一工艺区域中的平均剪切速率不同， 至少约1.2。

公开(公告)号：US07959880B2

公开(公告)日：2011-06-14

申请号：US12157587

申请日：2008-06-11

Applicant: Anna Lee Y. Tonkovich ,  Bin Yang ,  William Allen Rogers, Jr. ,  Paul William Neagle ,  Sean P. Fitzgerald ,  Kai Tod Paul Jarosch ,  Dongming Qiu ,  David J. Hesse ,  Micheal Lamont

Inventor： Anna Lee Y. Tonkovich ,  Bin Yang ,  William Allen Rogers, Jr. ,  Paul William Neagle ,  Sean P. Fitzgerald ,  Kai Tod Paul Jarosch ,  Dongming Qiu ,  David J. Hesse ,  Micheal Lamont

IPC: B01J12/00

CPC classification number: C01B15/029 ,  B01J19/0093 ,  B01J2219/00783 ,  B01J2219/00822 ,  B01J2219/00826 ,  B01J2219/00828 ,  B01J2219/00831 ,  B01J2219/00835 ,  B01J2219/0086 ,  B01J2219/00873 ,  B01J2219/00889 ,  B01J2219/00891 ,  B01J2219/00907 ,  B01J2219/00918 ,  C01B3/384 ,  C01B15/01 ,  C01B15/027

Abstract: The present invention includes methods and apparatuses for producing hydrogen peroxide using microchannel technology. An exemplary process for producing hydrogen peroxide comprises flowing feed streams into intimate fluid communication with one another within a process microchannel to form a reactant mixture stream comprising a hydrogen source and an oxygen source such as, without limitation, hydrogen gas and oxygen gas. Thereafter, a catalyst is contacted by the reactant mixture and is operative to convert a majority of the reactant mixture to hydrogen peroxide that is withdrawn via an egressing product stream. During the hydrogen peroxide chemical reaction, exothermic energy is generated and absorbed by the fluid within the microchannel as well as the microchannel itself.

Abstract translation: 本发明包括使用微通道技术生产过氧化氢的方法和装置。 用于生产过氧化氢的示例性方法包括使进料流在工艺微通道内相互流体连通，以形成包含氢源和氧源（例如但不限于氢气和氧气）的反应物混合物流。 此后，催化剂被反应物混合物接触并且可操作地将大部分反应物混合物转化成通过出口产物流排出的过氧化氢。 在过氧化氢化学反应期间，放热能由微通道内的流体以及微通道本身产生和吸收。

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

IPC: B01J35/02 ,  B01J15/00 ,  B01J16/00 ,  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。

公开(公告)号：US07923592B2

公开(公告)日：2011-04-12

申请号：US11670608

申请日：2007-02-02

Applicant: Anna Lee Tonkovich ,  Thomas Yuschak ,  Timothy J. LaPlante ,  Scott Rankin ,  Steven T. Perry ,  Sean Patrick Fitzgerald ,  Wayne W. Simmons ,  Terry Mazanec ,  Eric Daymo

Inventor： Anna Lee Tonkovich ,  Thomas Yuschak ,  Timothy J. LaPlante ,  Scott Rankin ,  Steven T. Perry ,  Sean Patrick Fitzgerald ,  Wayne W. Simmons ,  Terry Mazanec ,  Eric Daymo

IPC: C07C4/04 ,  C07C5/32

CPC classification number: C10G47/22 ,  B01J19/0093 ,  B01J2219/00783 ,  B01J2219/00822 ,  B01J2219/00824 ,  B01J2219/00831 ,  B01J2219/00833 ,  B01J2219/0086 ,  B01J2219/00873 ,  B01J2219/00889 ,  B01J2219/00891 ,  C07C5/327 ,  C07C5/48 ,  C10G9/18 ,  C10G45/00 ,  C07C11/04

Abstract: The disclosed invention relates to a process for converting a feed composition comprising one or more hydrocarbons to a product comprising one or more unsaturated hydrocarbons, the process comprising: flowing the feed composition and steam in contact with each other in a microchannel reactor at a temperature in the range from about 200° C. to about 1200° C. to convert the feed composition to the product, the process being characterized by the absence of catalyst for converting the one or more hydrocarbons to one or more unsaturated hydrocarbons. Hydrogen and/or oxygen may be combined with the feed composition and steam.

Abstract translation: 所公开的发明涉及将包含一种或多种烃的进料组合物转化成包含一种或多种不饱和烃的产物的方法，该方法包括：将进料组合物和蒸汽在微通道反应器中彼此接触，温度为 范围为约200℃至约1200℃，以将进料组合物转化为产物，该方法的特征在于不存在用于将一种或多种烃转化为一种或多种不饱和烃的催化剂。 氢和/或氧可以与进料组合物和蒸汽组合。

公开(公告)号：US07874432B2

公开(公告)日：2011-01-25

申请号：US11088685

申请日：2005-03-23

Applicant: Barry L. Yang ,  Francis P. Daly ,  Junko M. Watson ,  Terry Manzanec ,  Sean P. Fitzgerald ,  Bradley R. Johnson ,  Xiaohong Li ,  Chunshe Cao ,  Ya-Huei Chin ,  Anna Lee Tonkovich ,  Ravi Arora ,  David J. Hesse ,  Dongming Qiu ,  Rachid Taha ,  Jeffrey J. Ramler ,  Yong Wang ,  Richard Long

Inventor： Barry L. Yang ,  Francis P. Daly ,  Junko M. Watson ,  Terry Manzanec ,  Sean P. Fitzgerald ,  Bradley R. Johnson ,  Xiaohong Li ,  Chunshe Cao ,  Ya-Huei Chin ,  Anna Lee Tonkovich ,  Ravi Arora ,  David J. Hesse ,  Dongming Qiu ,  Rachid Taha ,  Jeffrey J. Ramler ,  Yong Wang ,  Richard Long

IPC: B01D8/02 ,  B01D39/00 ,  C07C7/20

CPC classification number: C01B3/384 ,  B01J19/0093 ,  B01J2219/00822 ,  B01J2219/00824 ,  B01J2219/00835 ,  B01J2219/00844 ,  B01J2219/0086 ,  B01J2219/00869 ,  B01J2219/00873 ,  B01J2219/0236 ,  C01B2203/0233 ,  C01B2203/0811 ,  C23C8/10 ,  C23C16/12 ,  C23C16/56 ,  H01M2008/1293 ,  Y02P20/52 ,  Y10S585/92 ,  Y10S585/924

Abstract: The invention describes microchannel apparatus and catalysts that contain a layer of a metal aluminide or are made in a process in which a metal aluminide layer is formed as an intermediate. Certain processing conditions have surprisingly been found to result in superior coatings. The invention includes chemical processes conducted through apparatus described in the specification. Other catalysts and catalyst synthesis techniques are also described.

Abstract translation: 本发明描述了包含金属铝化物层的微通道装置和催化剂，或者是在其中形成金属铝化物层作为中间体的方法制造的。 令人惊奇地发现某些加工条件导致优异的涂层。 本发明包括通过本说明书中描述的设备进行的化学过程。 还描述了其它催化剂和催化剂合成技术。

公开(公告)号：US20100300550A1

公开(公告)日：2010-12-02

申请号：US12839063

申请日：2010-07-19

Applicant: James Allen Mathias ,  G. Bradley Chadwell ,  Dongming Qiu ,  Anna Lee Y.Tonkovich ,  Steven T. Perry ,  Matthew B. Schmidt ,  Sean P. Fitzgerald ,  David J. Hesse ,  Thomas D. Yuschak ,  Bin Yang

Inventor： James Allen Mathias ,  G. Bradley Chadwell ,  Dongming Qiu ,  Anna Lee Y.Tonkovich ,  Steven T. Perry ,  Matthew B. Schmidt ,  Sean P. Fitzgerald ,  David J. Hesse ,  Thomas D. Yuschak ,  Bin Yang

IPC: B81B1/00 ,  F15C1/06 ,  F28D3/02

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。

公开(公告)号：US20100292074A1

公开(公告)日：2010-11-18

申请号：US12758795

申请日：2010-04-12

Applicant: Yong Wang ,  David P. Vanderwiel ,  Anna Lee Y. Tonkovich ,  Yufei Gao ,  Eddie G. Baker

Inventor： Yong Wang ,  David P. Vanderwiel ,  Anna Lee Y. Tonkovich ,  Yufei Gao ,  Eddie G. Baker

IPC: B01J27/24 ,  B01J23/00 ,  B01J27/22 ,  B01J27/04

CPC classification number: B01J23/8913 ,  B01J8/0285 ,  B01J12/007 ,  B01J19/248 ,  B01J23/462 ,  B01J23/75 ,  B01J35/0006 ,  B01J35/002 ,  B01J35/04 ,  B01J35/10 ,  B01J35/1009 ,  B01J37/0221 ,  B01J37/0238 ,  B01J37/0244 ,  B01J2219/32293 ,  B01J2219/32296 ,  B01J2219/32408 ,  B01J2219/32466 ,  B01J2219/32475 ,  C07C1/041 ,  C07C1/0425 ,  C07C1/0455 ,  C07C2523/46 ,  C07C2523/745 ,  C07C2523/75 ,  C10G2/33 ,  C10G2/332

Abstract: The present invention includes Fischer-Tropsch catalysts, reactions using Fischer-Tropsch catalysts, methods of making Fischer-Tropsch catalysts, processes of hydrogenating carbon monoxide, and fuels made using these processes. The invention provides the ability to hydrogenate carbon monoxide with low contact times, good conversion rates and low methane selectivities. In a preferred method, the catalyst is made using a metal foam support.

Abstract translation: 本发明包括费 - 托催化剂，使用费 - 托催化剂的反应，制备费 - 托催化剂的方法，氢化一氧化碳的方法和使用这些方法制备的燃料。 本发明提供了以低接触时间，良好的转化率和低的甲烷选择性氢化一氧化碳的能力。 在优选的方法中，催化剂是使用金属泡沫载体制成的。

公开(公告)号：US20100280136A1

公开(公告)日：2010-11-04

申请号：US12439872

申请日：2007-09-05

Applicant: Anna Lee Y. Tonkovich ,  Robert D. Litt ,  Timothy M. Werner ,  Bin Yang

Inventor： Anna Lee Y. Tonkovich ,  Robert D. Litt ,  Timothy M. Werner ,  Bin Yang

IPC: B01J8/02 ,  B01J19/00 ,  C07C1/04 ,  C07C29/00 ,  C07C2/02 ,  C07C4/02 ,  C07B45/00 ,  C07B43/00 ,  C07B41/00 ,  C01B15/01

CPC classification number: B01J19/0093 ,  B01J19/1831 ,  B01J2219/00783 ,  B01J2219/00835 ,  B01J2219/00873 ,  B01J2219/00984 ,  C07C29/152 ,  C10G2/341 ,  C07C31/04

Abstract: A process for carrying out at least two unit operations in series, the process comprising the step of: (a) directing a feed stream into an integrated assembly which comprises a first microchannel unit operation upon at least one chemical of the feed stream to generate a distributed output stream that exits the first microchannel unit operation in a first set of discrete microchannels isolating flow through the discrete microchannels; and (b) directing the distributed output stream of the first microchannel unit operation into a second microchannel unit operation as a distributed input stream, to continue isolating flow between the first set of discrete microchannels, and conducting at least one operation upon at least one chemical of the input stream to generate a product stream that exits the second microchannel unit operation, where the first microchannel unit operation and the second unit operation share a housing.

Abstract translation: 一种用于串联进行至少两个单元操作的方法，该方法包括以下步骤：（a）将进料流引导到集成组件中，其包括在进料流的至少一种化学品上的第一微通道单元操作以产生 在第一组离散微通道中离开第一微通道单元操作的分布式输出流，其隔离通过离散微通道的流动; 和（b）将第一微通道单元操作的分布式输出流引导到作为分布式输入流的第二微通道单元操作中，以继续隔离第一组离散微通道之间的流动，并且至少一种化学物质进行至少一种操作 以产生离开第二微通道单元操作的产品流，其中第一微通道单元操作和第二单元操作共享外壳。

公开(公告)号：US07820725B2

公开(公告)日：2010-10-26

申请号：US11516027

申请日：2006-09-05

Applicant: Anna Lee Y. Tonkovich ,  Robert D. Litt

Inventor： Anna Lee Y. Tonkovich ,  Robert D. Litt

IPC: C07C27/00

CPC classification number: B01J19/0093 ,  B01J2219/00783 ,  B01J2219/00822 ,  B01J2219/00835 ,  B01J2219/00873 ,  B01J2219/00984 ,  C07C1/041 ,  C07C1/042 ,  C07C1/0425 ,  C07C1/048 ,  C07C29/152 ,  C10G2/341 ,  C07C31/04

Abstract: A process for carrying out at least two unit operations in series, the process comprising the step of: (a) directing a feed stream into an integrated assembly which comprises a first microchannel unit operation upon at least one chemical of the feed stream to generate a distributed output stream that exits the first microchannel unit operation in a first set of discrete microchannels isolating flow through the discrete microchannels; and (b) directing the distributed output stream of the first microchannel unit operation into a second microchannel unit operation as a distributed input stream, to continue isolating flow between the first set of discrete microchannels, and conducting at least one operation upon at least one chemical of the input stream to generate a product stream that exits the second microchannel unit operation, where the first microchannel unit operation and the second unit operation share a housing.

Abstract translation: 一种用于串联进行至少两个单元操作的方法，该方法包括以下步骤：（a）将进料流引导到集成组件中，其包括在进料流的至少一种化学品上的第一微通道单元操作以产生 在第一组离散微通道中离开第一微通道单元操作的分布式输出流，其隔离通过离散微通道的流动; 和（b）将第一微通道单元操作的分布式输出流引导到作为分布式输入流的第二微通道单元操作中，以继续隔离第一组离散微通道之间的流动，并且至少一种化学物质进行至少一种操作 以产生离开第二微通道单元操作的产品流，其中第一微通道单元操作和第二单元操作共享外壳。