公开(公告)号：US08343256B2

公开(公告)日：2013-01-01

申请号：US12734863

申请日：2007-12-27

申请人： Michael T. Lines ,  Derek W. Hildreth ,  John L. Preston, Jr.

发明人： Michael T. Lines ,  Derek W. Hildreth ,  John L. Preston, Jr.

IPC分类号： B01D53/14

CPC分类号： H01M8/086 ,  H01M8/04119 ,  H01M8/0662 ,  H01M2008/1095

摘要： An integrated contaminant separator and water-control loop (10) decontaminates a fuel reactant stream of a fuel cell (12). Water passes over surfaces of an ammonia dissolving means (61) within a separator scrubber (58) while the fuel reactant stream simultaneously passes over the surfaces to dissolve contaminants from the fuel reactant stream into the water. An accumulator (68) collects the separated contaminant stream, and ion exchange material (69) integrated within the accumulator removes contaminants from the stream. A water-control pump (84) directs flow of a de-contaminated water stream from the accumulator (68) through a water-control loop (78) having a heat exchanger (86) and back onto the scrubber (58) to flow over the packed bed (62). Separating contaminants from the fuel reactant stream and then isolating and concentrating the separated contaminants within the ion exchange material (69) minimizes cost and maintenance requirements.

摘要翻译： 集成污染物分离器和水控制回路（10）去除燃料电池（12）的燃料反应物流。 水通过分离器洗涤器（58）内的氨溶解装置（61）的表面，同时燃料反应物流同时经过表面以将来自燃料反应物流的污染物溶解到水中。 蓄能器（68）收集分离的污染物流，并且集成在蓄能器内的离子交换材料（69）从流中去除污染物。 水控制泵（84）引导来自蓄能器（68）的去污染的水流的流动通过具有热交换器（86）的水控制回路（78）并返回到洗涤器（58）上以流过 填充床（62）。 将污染物与燃料反应物流分离，然后将分离的污染物分离并浓缩在离子交换材料（69）内，使成本和维护要求最小化。

公开(公告)号：US20100304231A1

公开(公告)日：2010-12-02

申请号：US12734863

申请日：2007-12-27

申请人： Michael T. Lines ,  Derek W. Hildreth ,  John L. Preston

发明人： Michael T. Lines ,  Derek W. Hildreth ,  John L. Preston

IPC分类号： H01M8/06

CPC分类号： H01M8/086 ,  H01M8/04119 ,  H01M8/0662 ,  H01M2008/1095

摘要： An integrated contaminant separator and water-control loop (10) decontaminates a fuel reactant stream of a fuel cell (12). Water passes over surfaces of an ammonia dissolving means (61) within a separator scrubber (58) while the fuel reactant stream simultaneously passes over the surfaces to dissolve contaminants from the fuel reactant stream into the water. An accumulator (68) collects the separated contaminant stream, and ion exchange material (69) integrated within the accumulator removes contaminants from the stream. A water-control pump (84) directs flow of a de-contaminated water stream from the accumulator (68) through a water-control loop (78) having a heat exchanger (86) and back onto the scrubber (58) to flow over the packed bed (62). Separating contaminants from the fuel reactant stream and then isolating and concentrating the separated contaminants within the ion exchange material (69) minimizes cost and maintenance requirements.

摘要翻译： 集成污染物分离器和水控制回路（10）去除燃料电池（12）的燃料反应物流。 水通过分离器洗涤器（58）内的氨溶解装置（61）的表面，同时燃料反应物流同时经过表面以将来自燃料反应物流的污染物溶解到水中。 蓄能器（68）收集分离的污染物流，并且集成在蓄能器内的离子交换材料（69）从流中去除污染物。 水控制泵（84）引导来自蓄能器（68）的去污染的水流的流动通过具有热交换器（86）的水控制回路（78）并返回到洗涤器（58）上以流过 填充床（62）。 将污染物与燃料反应物流分离，然后将分离的污染物分离并浓缩在离子交换材料（69）内，使成本和维护要求最小化。

公开(公告)号：US20090194459A1

公开(公告)日：2009-08-06

申请号：US12321261

申请日：2009-01-16

申请人： Antonio M. Vincitore ,  Peter F. Foley ,  Derek W. Hildreth ,  John L. Preston ,  Stephen G. Pixton ,  Nancy P. Foley

发明人： Antonio M. Vincitore ,  Peter F. Foley ,  Derek W. Hildreth ,  John L. Preston ,  Stephen G. Pixton ,  Nancy P. Foley

IPC分类号： C10G67/00 ,  B01J19/00

CPC分类号： C10G65/04 ,  C10L3/101 ,  C10L3/103

摘要： A reformer system (11) having a hydrodesulfurizer (12) provides desulfurized natural gas feedstock to a catalytic steam reformer (16), the outflow of which is treated by a water gas shift reactor (20) and optionally a preferential CO oxidizer (58) to provide reformate gas (28, 28a) having high hydrogen and moderate carbon dioxide content. To avoid damage to the hydrodesulfurizer from overheating, any deleterious hydrogen reactants, such as the oxygen in peak shave gas or olefins, in the non-desulfurized natural gas feedstock (35) are reacted (38) with hydrogen (28, 28a; 71) to convert them to alkanes (e.g., ethylene and propylene to ethane and propane) and to convert oxygen to water in a catalytic reactor (38) cooled (46), below a temperature which would damage the reactor, by evaporative cooling with pressurized hot water (42). Hydrogen for the desulfurizer and the hydrogen reactions may be provided as recycle reformate (28, 28a) or from a mini-CPO (67), or from other sources.

摘要翻译： 具有加氢脱硫剂（12）的重整器系统（11）向催化蒸汽重整器（16）提供脱硫天然气原料，其流出物由水煤气变换反应器（20）和任选的优先CO氧化器（58）处理， 以提供具有高氢和适度二氧化碳含量的重整气体（28,28a）。 为了避免加氢脱硫剂由于过热而损坏，非脱硫天然气原料（35）中任何有害的氢反应物（例如峰值刮削气体或烯烃中的氧）与氢（28,28a; 71）反应（38） 将它们转化为烷烃（例如乙烯和丙烯至乙烷和丙烷），并在冷却（46）的催化反应器（38）中将氧转化为水，低于会损坏反应器的温度，通过用加压热水蒸发冷却 （42）。 用于脱硫剂的氢气和氢气反应可以作为循环重整油（28,28a）或来自小型CPO（67）或其它来源提供。

公开(公告)号：US20110195326A1

公开(公告)日：2011-08-11

申请号：US12998327

申请日：2008-11-17

申请人： Antonio M. Vincitore ,  Peter F. Foley ,  Derek W. Hildreth ,  John L. Preston

发明人： Antonio M. Vincitore ,  Peter F. Foley ,  Derek W. Hildreth ,  John L. Preston

IPC分类号： H01M8/06

CPC分类号： H01M8/086 ,  C01B3/56 ,  C01B3/58 ,  C01B5/00 ,  C01B2203/042 ,  C01B2203/0435 ,  C01B2203/0465 ,  C01B2203/048 ,  C01B2203/0883 ,  C01B2203/146 ,  C25B1/04 ,  C25B1/265 ,  H01M8/0656 ,  H01M8/0662 ,  Y02E60/366 ,  Y02P70/56

摘要： A sodium chlorate electrolysis cell (9) receives a portion of its electrical power (47, 48; 50, 51) from a phosphoric acid fuel cell (45) which receives fuel at its anode inlet (43) from a water cooled catalytic reactor (26) that converts oxygen in the byproduct output (21) of the sodium chlorate electrolysis cell to hydrogen and water. A utility grid (53) may provide through a converter (55) power to support the electrochemical process in the sodium chlorate electrolysis cell. Temperature of the water cooled catalytic reactor is determined by the vaporization of pressurized hot water, the pressure of which may be adjusted by a controller (36) and a valve (38) in response to temperature (40).

摘要翻译： 氯酸钠电解池（9）从磷酸燃料电池（45）接收一部分电力（47,48; 50,51），磷酸燃料电池在其阳极入口（43）从水冷催化反应器（43）接收燃料 26）将氯酸钠电解池的副产物输出（21）中的氧转化为氢和水。 公用电网（53）可以通过转换器（55）提供电力来支持氯酸钠电解池中的电化学过程。 水冷催化反应器的温度由加压热水的蒸发决定，其压力可以通过控制器（36）和阀（38）根据温度（40）调节。

公开(公告)号：US08673511B2

公开(公告)日：2014-03-18

申请号：US12998327

申请日：2008-11-17

申请人： Antonio M. Vincitore ,  Peter F. Foley ,  Derek W. Hildreth ,  John L. Preston

发明人： Antonio M. Vincitore ,  Peter F. Foley ,  Derek W. Hildreth ,  John L. Preston

IPC分类号： H01M8/06 ,  H01M16/00

CPC分类号： H01M8/086 ,  C01B3/56 ,  C01B3/58 ,  C01B5/00 ,  C01B2203/042 ,  C01B2203/0435 ,  C01B2203/0465 ,  C01B2203/048 ,  C01B2203/0883 ,  C01B2203/146 ,  C25B1/04 ,  C25B1/265 ,  H01M8/0656 ,  H01M8/0662 ,  Y02E60/366 ,  Y02P70/56

摘要： A sodium chloride electrolysis cell (9) receives a portion of its electrical power (47, 48: 50, 51) from a phosphoric acid fuel cell (44) which receives fuel at its anode inlet (43) from a water cooled catalytic reactor (26) that converts oxygen in the byproduct output (19) of the sodium chlorate electrolysis cell to hydrogen and water. A utility grid (53) may provide through a converter (55) power to support the electrochemical process in the sodium chlorate electrolysis cell. Temperature of the water cooled catalytic reactor is determined by the vaporization of pressurized hot water, the pressure of which may be adjusted by a controller (36) and a valve (38) in response to temperature (40).

摘要翻译： 氯化钠电解槽（9）从其水阳极入口（43）从水冷催化反应器（43）接收燃料的磷酸燃料电池（44）接收其一部分电力（47,48：50,51） 26）将氯酸钠电解池的副产物输出（19）中的氧转化为氢和水。 公用电网（53）可以通过转换器（55）提供电力来支持氯酸钠电解池中的电化学过程。 水冷催化反应器的温度由加压热水的蒸发决定，其压力可以通过控制器（36）和阀（38）根据温度（40）调节。

公开(公告)号：US20120288412A1

公开(公告)日：2012-11-15

申请号：US13416744

申请日：2012-03-09

申请人： Antonio M. Vincitore ,  Peter F. Foley ,  Nancy P. Foley ,  Derek W. Hildreth ,  John L. Preston ,  Stephen G. Pixton ,  James A. Davies

发明人： Antonio M. Vincitore ,  Peter F. Foley ,  Nancy P. Foley ,  Derek W. Hildreth ,  John L. Preston ,  Stephen G. Pixton ,  James A. Davies

IPC分类号： B01J8/00 ,  F17D3/00 ,  G05D7/00

CPC分类号： C10G65/04 ,  C01B3/38 ,  C01B3/48 ,  C01B2203/0233 ,  C01B2203/0283 ,  C01B2203/044 ,  C01B2203/065 ,  C01B2203/1058 ,  C01B2203/1064 ,  C01B2203/127 ,  C01B2203/1276 ,  C10G3/42 ,  C10G3/50 ,  C10G45/00 ,  C10G45/02 ,  C10G2300/1025 ,  C10G2300/202 ,  C10L3/101 ,  C10L3/103 ,  Y10T137/0318

摘要： A reformer system (11) having a hydrodesulfurizer (12) provides desulfurized natural gas feedstock to a catalytic steam reformer (16), the outflow of which is treated by a water gas shift reactor (20) and optionally a preferential CO oxidizer (58) to provide reformate gas (28, 28a) having high hydrogen and moderate carbon dioxide content. To avoid damage to the hydrodesulfurizer from overheating, any deleterious hydrogen reactants, such as the oxygen in peak shave gas or olefins, in the non-desulfurized natural gas feedstock (35) are reacted (38) with hydrogen (28, 28a; 71) to convert them to alkanes (e.g., ethylene and propylene to ethane and propane) and to convert oxygen to water in a catalytic reactor (38) having no sulfide sorbent, and cooled (46), below a temperature which would damage the reactor, by evaporative cooling with pressurized hot water (42). Hydrogen for the desulfurizer and the hydrogen reactions may be provided as recycle reformate (28, 28a) or from a mini-CPO (67), or from other sources.

摘要翻译： 具有加氢脱硫剂（12）的重整器系统（11）向催化蒸汽重整器（16）提供脱硫天然气原料，其流出物由水煤气变换反应器（20）和任选的优先CO氧化器（58）处理， 以提供具有高氢和适度二氧化碳含量的重整气体（28,28a）。 为了避免加氢脱硫剂由于过热而损坏，非脱硫天然气原料（35）中任何有害的氢反应物（例如峰值刮削气体或烯烃中的氧）与氢（28,28a; 71）反应（38） 将它们转化为烷烃（例如乙烯和丙烯至乙烷和丙烷），并在不具有硫化物吸附剂的催化反应器（38）中将氧转化为水，并在低于将破坏反应器的温度下冷却（46），由 用加压热水蒸发冷却（42）。 用于脱硫剂的氢气和氢气反应可以作为循环重整油（28,28a）或来自小型CPO（67）或其它来源提供。

公开(公告)号：US20120034536A1

公开(公告)日：2012-02-09

申请号：US13263148

申请日：2009-04-27

申请人： Joshua D. Isom ,  Leslie L. Vandine ,  Derek W. Hildreth ,  John L. Preston ,  Paul R. Hanrahan ,  Reni Lynn

发明人： Joshua D. Isom ,  Leslie L. Vandine ,  Derek W. Hildreth ,  John L. Preston ,  Paul R. Hanrahan ,  Reni Lynn

IPC分类号： H01M8/06 ,  H01M8/04

CPC分类号： H01M8/0687 ,  B01D53/1412 ,  B01D53/1425 ,  B01D53/18 ,  B01D2257/406 ,  C01B3/32 ,  C01B2203/0205 ,  C01B2203/0283 ,  C01B2203/066 ,  H01M8/04014 ,  H01M8/04708 ,  H01M8/0618 ,  H01M8/0662 ,  Y02E60/50

摘要： A fluidized contaminant separator and water-control loop (10) decontaminates a fuel reactant stream of a fuel cell (12). Water passes over surfaces of an ammonia dissolving media (61) within a fluidized bed (62) while the fuel reactant stream simultaneously passes over the surfaces to dissolve contaminants from the fuel reactant stream into a separated contaminant and water stream. A fuel-control heat exchanger (57) upstream from the scrubber (58) removes heat from the fuel stream. A water-control loop (78) directs flow of the separated contaminants and water stream from an accumulator (68) through an ion exchange bed (88) which removes contaminants from the stream. Decontaminated water is directed back into the scrubber (58) to flow through the fluidized bed (62). Separating contaminants from the fuel reactant stream and then isolating and concentrating the separated contaminants within the ion exchange material (88) minimizes costs and maintenance requirements.

摘要翻译： 流化污染物分离器和水控制回路（10）消除燃料电池（12）的燃料反应物流。 水通过流化床（62）内的氨溶解介质（61）的表面，同时燃料反应物流同时经过表面以将来自燃料反应物流的污染物溶解成分离的污染物和水流。 在洗涤器（58）上游的燃料控制热交换器（57）从燃料流中除去热量。 水控制回路（78）引导分离的污染物和来自蓄能器（68）的水流的流动通过离子交换床（88），其从流中除去污染物。 去污水被引回到洗涤器（58）中以流过流化床（62）。 将污染物与燃料反应物流分离，然后分离和浓缩分离的污染物在离子交换材料（88）内，使成本和维护需求最小化。

公开(公告)号：US06387555B1

公开(公告)日：2002-05-14

申请号：US09510697

申请日：2000-02-22

申请人： Douglas J. Wheeler ,  Thomas J. Corrigan ,  Leonard J. Bonville ,  Roger R. Lesieur ,  Derek W. Hildreth ,  Carl A. Reiser

发明人： Douglas J. Wheeler ,  Thomas J. Corrigan ,  Leonard J. Bonville ,  Roger R. Lesieur ,  Derek W. Hildreth ,  Carl A. Reiser

IPC分类号： H01M804

CPC分类号： H01M8/0662

摘要： An integrated fuel cell stack assembly (26) and selective oxidizer bed assembly (200) is provided. The fuel cell stack assembly (26) also includes a number of fuel cells. A fuel inlet manifold (22) and fuel inlet plenum to cell stack (38) manifold are arranged in fluid communication with the fuel stack assembly (26) for supplying to and exhausting from, respectively, the fuel supply in the fuel cells in the fuel stack assembly (26). The bed resides in said fuel inlet manifold. The bed includes a selective oxidation catalyst with a heat exchange fluid conduit routed therethrough. Oxygen-containing gas is supplied into the bed via the input plenum. The temperature of the internal selective oxidizer bed is controlled by the fluid conduit in the bed to reduce carbon monoxide in the fuel.

摘要翻译： 提供了集成的燃料电池堆组件（26）和选择性氧化床床组件（200）。 燃料电池堆组件（26）还包括多个燃料电池。 燃料入口歧管（22）和燃料入口通风室至电池堆（38）歧管布置成与燃料堆组件（26）流体连通，用于分别供应燃料燃料中的燃料电池中的燃料供应和排出 堆叠组件（26）。 床位于所述燃料入口歧管中。 该床包括选择性氧化催化剂，其中路由有热交换流体导管。 含氧气体通过输入增压室供应到床中。 内部选择性氧化剂床的温度由床中的流体导管控制，以减少燃料中的一氧化碳。

公开(公告)号：US09745526B2

公开(公告)日：2017-08-29

申请号：US13416744

申请日：2012-03-09

申请人： Antonio M. Vincitore ,  Peter F. Foley ,  Nancy P. Foley ,  Derek W. Hildreth ,  John L. Preston ,  Stephen G. Pixton ,  James A. Davies

发明人： Antonio M. Vincitore ,  Peter F. Foley ,  Derek W. Hildreth ,  John L. Preston ,  Stephen G. Pixton ,  James A. Davies

IPC分类号： B01J8/00 ,  C10G45/00 ,  C10G65/04 ,  C10G45/02 ,  C10L3/10 ,  C10G3/00 ,  C01B3/38 ,  C01B3/48

CPC分类号： C10G65/04 ,  C01B3/38 ,  C01B3/48 ,  C01B2203/0233 ,  C01B2203/0283 ,  C01B2203/044 ,  C01B2203/065 ,  C01B2203/1058 ,  C01B2203/1064 ,  C01B2203/127 ,  C01B2203/1276 ,  C10G3/42 ,  C10G3/50 ,  C10G45/00 ,  C10G45/02 ,  C10G2300/1025 ,  C10G2300/202 ,  C10L3/101 ,  C10L3/103 ,  Y10T137/0318

摘要： A reformer system (11) having a hydrodesulfurizer (12) provides desulfurized natural gas feedstock to a catalytic steam reformer (16), the outflow of which is treated by a water gas shift reactor (20) and optionally a preferential CO oxidizer (58) to provide reformate gas (28, 28a) having high hydrogen and moderate carbon dioxide content. To avoid damage to the hydrodesulfurizer from overheating, any deleterious hydrogen reactants, such as the oxygen in peak shave gas or olefins, in the non-desulfurized natural gas feedstock (35) are reacted (38) with hydrogen (28, 28a; 71) to convert them to alkanes (e.g., ethylene and propylene to ethane and propane) and to convert oxygen to water in a catalytic reactor (38) having no sulfide sorbent, and cooled (46), below a temperature which would damage the reactor, by evaporative cooling with pressurized hot water (42). Hydrogen for the desulfurizer and the hydrogen reactions may be provided as recycle reformate (28, 28a) or from a mini-CPO (67), or from other sources.

公开(公告)号：US09553323B2

公开(公告)日：2017-01-24

申请号：US13263148

申请日：2009-04-27

申请人： Joshua D. Isom ,  Leslie L. VanDine ,  Derek W. Hildreth ,  John L. Preston ,  Paul R. Hanrahan ,  Lynn Reni

发明人： Joshua D. Isom ,  Leslie L. VanDine ,  Derek W. Hildreth ,  John L. Preston ,  Paul R. Hanrahan ,  Lynn Reni

IPC分类号： H01M8/06 ,  B01D53/14 ,  B01D53/18 ,  C01B3/32 ,  H01M8/04

CPC分类号： H01M8/0687 ,  B01D53/1412 ,  B01D53/1425 ,  B01D53/18 ,  B01D2257/406 ,  C01B3/32 ,  C01B2203/0205 ,  C01B2203/0283 ,  C01B2203/066 ,  H01M8/04014 ,  H01M8/04708 ,  H01M8/0618 ,  H01M8/0662 ,  Y02E60/50

摘要： A fluidized contaminant separator and water-control loop (10) decontaminates a fuel reactant stream of a fuel cell (12). Water passes over surfaces of an ammonia dissolving media (61) within a fluidized bed (62) while the fuel reactant stream simultaneously passes over the surfaces to dissolve contaminants from the fuel reactant stream into a separated contaminant and water stream. A fuel-control heat exchanger (57) upstream from the scrubber (58) removes heat from the fuel stream. A water-control loop (78) directs flow of the separated contaminants and water stream from an accumulator (68) through an ion exchange bed (88) which removes contaminants from the stream. Decontaminated water is directed back into the scrubber (58) to flow through the fluidized bed (62). Separating contaminants from the fuel reactant stream and then isolating and concentrating the separated contaminants within the ion exchange material (88) minimizes costs and maintenance requirements.

摘要翻译： 流化污染物分离器和水控制回路（10）消除燃料电池（12）的燃料反应物流。 水通过流化床（62）内的氨溶解介质（61）的表面，同时燃料反应物流同时经过表面以将来自燃料反应物流的污染物溶解成分离的污染物和水流。 在洗涤器（58）上游的燃料控制热交换器（57）从燃料流中除去热量。 水控制回路（78）引导分离的污染物和来自蓄能器（68）的水流的流动通过离子交换床（88），其从流中除去污染物。 去污水被引回到洗涤器（58）中以流过流化床（62）。 将污染物与燃料反应物流分离，然后分离和浓缩分离的污染物在离子交换材料（88）内，使成本和维护需求最小化。