公开(公告)号：US20140096524A1

公开(公告)日：2014-04-10

申请号：US14102628

申请日：2013-12-11

申请人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller ,  Michael Vermeersch ,  Tao Xie

发明人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller ,  Michael Vermeersch ,  Tao Xie

IPC分类号： F01K3/18 ,  F01K25/10 ,  F01K7/08

CPC分类号： F01K3/185 ,  F01K7/08 ,  F01K25/103 ,  F24H2240/12

摘要： Aspects of the disclosure generally provide a heat engine system and a method for regulating a pressure and an amount of a working fluid in a working fluid circuit during a thermodynamic cycle. A mass management system may be employed to regulate the working fluid circulating throughout the working fluid circuit. The mass management systems may have a mass control tank fluidly coupled to the working fluid circuit at one or more strategically-located tie-in points. A heat exchanger coil may be used in conjunction with the mass control tank to regulate the temperature of the fluid within the mass control tank, and thereby determine whether working fluid is either extracted from or injected into the working fluid circuit. Regulating the pressure and amount of working fluid in the working fluid circuit selectively increases or decreases the suction pressure of the pump to increase system efficiency.

摘要翻译： 本公开的方面通常提供热力发动机系统和用于在热力循环期间调节工作流体回路中的工作流体的压力和量的方法。 可以采用质量管理系统来调节在整个工作流体回路中循环的工作流体。 质量管理系统可以具有在一个或多个战略位置的联结点处流体地联接到工作流体回路的质量控制罐。 热交换器盘管可以与质量控制箱一起使用，以调节质量控制箱内的流体的温度，从而确定工作流体是从工作流体回路中提取还是从工作流体回路中注入。 调节工作流体回路中的工作流体的压力和量选择性地增加或减小了泵的吸入压力，以提高系统效率。

公开(公告)号：US09458738B2

公开(公告)日：2016-10-04

申请号：US14102628

申请日：2013-12-11

申请人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller ,  Michael Vermeersch ,  Tao Xie

发明人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller ,  Michael Vermeersch ,  Tao Xie

IPC分类号： F01K3/18 ,  F01K25/10 ,  F01K7/08

CPC分类号： F01K3/185 ,  F01K7/08 ,  F01K25/103 ,  F24H2240/12

摘要： Aspects of the disclosure generally provide a heat engine system and a method for regulating a pressure and an amount of a working fluid in a working fluid circuit during a thermodynamic cycle. A mass management system may be employed to regulate the working fluid circulating throughout the working fluid circuit. The mass management systems may have a mass control tank fluidly coupled to the working fluid circuit at one or more strategically-located tie-in points. A heat exchanger coil may be used in conjunction with the mass control tank to regulate the temperature of the fluid within the mass control tank, and thereby determine whether working fluid is either extracted from or injected into the working fluid circuit. Regulating the pressure and amount of working fluid in the working fluid circuit selectively increases or decreases the suction pressure of the pump to increase system efficiency.

摘要翻译： 本公开的方面通常提供热力发动机系统和用于在热力循环期间调节工作流体回路中的工作流体的压力和量的方法。 可以采用质量管理系统来调节在整个工作流体回路中循环的工作流体。 质量管理系统可以具有在一个或多个战略位置的联结点处流体地联接到工作流体回路的质量控制罐。 热交换器盘管可以与质量控制箱一起使用，以调节质量控制箱内的流体的温度，从而确定工作流体是从工作流体回路中提取还是从工作流体回路中注入。 调节工作流体回路中的工作流体的压力和量选择性地增加或减小了泵的吸入压力，以提高系统效率。

公开(公告)号：US08613195B2

公开(公告)日：2013-12-24

申请号：US13278705

申请日：2011-10-21

申请人： Timothy J. Held ,  Stephen Hostler ,  Jason D. Miller ,  Michael Vermeersch ,  Tao Xie

发明人： Timothy J. Held ,  Stephen Hostler ,  Jason D. Miller ,  Michael Vermeersch ,  Tao Xie

IPC分类号： F01K25/02

CPC分类号： F01K3/185 ,  F01K7/08 ,  F01K25/103 ,  F24H2240/12

摘要： Various thermodynamic power-generating cycles employ a mass management system to regulate the pressure and amount of working fluid circulating throughout the working fluid circuits. The mass management systems may have a mass control tank fluidly coupled to the working fluid circuit at one or more strategically-located tie-in points. A heat exchanger coil may be used in conjunction with the mass control tank to regulate the temperature of the fluid within the mass control tank, and thereby determine whether working fluid is either extracted from or injected into the working fluid circuit. Regulating the pressure and amount of working fluid in the working fluid circuit helps selectively increase or decrease the suction pressure of the pump, which can increase system efficiency.

摘要翻译： 各种热力发电循环使用质量管理系统来调节在整个工作流体回路中循环的工作流体的压力和量。 质量管理系统可以具有在一个或多个战略位置的联结点处流体地联接到工作流体回路的质量控制罐。 热交换器盘管可以与质量控制箱一起使用，以调节质量控制箱内的流体的温度，从而确定工作流体是从工作流体回路中提取还是从工作流体回路中注入。 调节工作流体回路中工作流体的压力和数量有助于选择性地增加或减少泵的吸入压力，从而提高系统效率。

公开(公告)号：US20140345279A1

公开(公告)日：2014-11-27

申请号：US14450410

申请日：2014-08-04

申请人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

发明人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

IPC分类号： F01K7/16 ,  F01K3/18 ,  F01K25/10

CPC分类号： F01K25/103 ,  F01K3/185 ,  F01K3/186 ,  F01K7/165 ,  F24H2240/12 ,  Y02T10/16

摘要： A method for converting thermal energy into mechanical energy in a thermodynamic cycle includes placing a thermal energy source in thermal communication with a heat exchanger arranged in a working fluid circuit containing a working fluid (e.g., sc-CO2) and having a high pressure side and a low pressure side. The method also includes regulating an amount of working fluid within the working fluid circuit via a mass management system having a working fluid vessel, pumping the working fluid through the working fluid circuit, and expanding the working fluid to generate mechanical energy. The method further includes directing the working fluid away from the expander through the working fluid circuit, controlling a flow of the working fluid in a supercritical state from the high pressure side to the working fluid vessel, and controlling a flow of the working fluid from the working fluid vessel to the low pressure side.

摘要翻译： 一种在热循环中将热能转换为机械能的方法包括将热能源与布置在包含工作流体（例如，sc-CO 2）并且具有高压侧的工作流体回路中的热交换器热连通， 低压侧。 该方法还包括通过具有工作流体容器的质量管理系统来调节工作流体回路内的工作流体的量，将工作流体泵送通过工作流体回路，以及膨胀工作流体以产生机械能。 该方法还包括将工作流体从膨胀机引导通过工作流体回路，控制工作流体在超临界状态从高压侧流向工作流体容器的流动，以及控制工作流体从 工作流体容器到低压侧。

公开(公告)号：US20120047892A1

公开(公告)日：2012-03-01

申请号：US13278705

申请日：2011-10-21

申请人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller

发明人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller

IPC分类号： F01K13/02

CPC分类号： F01K3/185 ,  F01K7/08 ,  F01K25/103 ,  F24H2240/12

摘要： Various thermodynamic power-generating cycles employ a mass management system to regulate the pressure and amount of working fluid circulating throughout the working fluid circuits. The mass management systems may have a mass control tank fluidly coupled to the working fluid circuit at one or more strategically-located tie-in points. A heat exchanger coil may be used in conjunction with the mass control tank to regulate the temperature of the fluid within the mass control tank, and thereby determine whether working fluid is either extracted from or injected into the working fluid circuit. Regulating the pressure and amount of working fluid in the working fluid circuit helps selectively increase or decrease the suction pressure of the pump, which can increase system efficiency.

摘要翻译： 各种热力发电循环使用质量管理系统来调节在整个工作流体回路中循环的工作流体的压力和量。 质量管理系统可以具有在一个或多个战略位置的联结点处流体地联接到工作流体回路的质量控制罐。 热交换器盘管可以与质量控制箱一起使用，以调节质量控制箱内的流体的温度，从而确定工作流体是从工作流体回路中提取还是从工作流体回路中注入。 调节工作流体回路中工作流体的压力和数量有助于选择性地增加或减少泵的吸入压力，从而提高系统效率。

公开(公告)号：US09816403B2

公开(公告)日：2017-11-14

申请号：US14450410

申请日：2014-08-04

申请人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

发明人： Timothy James Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

IPC分类号： F01K7/16 ,  F01K25/10 ,  F01K3/18

CPC分类号： F01K25/103 ,  F01K3/185 ,  F01K3/186 ,  F01K7/165 ,  F24H2240/12 ,  Y02T10/16

摘要： A method for converting thermal energy into mechanical energy in a thermodynamic cycle includes placing a thermal energy source in thermal communication with a heat exchanger arranged in a working fluid circuit containing a working fluid (e.g., sc-CO2) and having a high pressure side and a low pressure side. The method also includes regulating an amount of working fluid within the working fluid circuit via a mass management system having a working fluid vessel, pumping the working fluid through the working fluid circuit, and expanding the working fluid to generate mechanical energy. The method further includes directing the working fluid away from the expander through the working fluid circuit, controlling a flow of the working fluid in a supercritical state from the high pressure side to the working fluid vessel, and controlling a flow of the working fluid from the working fluid vessel to the low pressure side.

公开(公告)号：US20110185729A1

公开(公告)日：2011-08-04

申请号：US12631412

申请日：2009-12-04

申请人： Timothy J. Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

发明人： Timothy J. Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

IPC分类号： F01K27/00

CPC分类号： F01K25/103 ,  F01K3/185 ,  F01K3/186 ,  F01K7/165 ,  F24H2240/12 ,  Y02T10/16

摘要： A waste heat recovery system, method and device executes a thermodynamic cycle using a working fluid in a working fluid circuit which has a high pressure side and a low pressure side. Components of the system in the working fluid circuit include a waste heat exchanger in thermal communication with a waste heat source also connected to the working fluid circuit, whereby thermal energy is transferred from the waste heat source to the working fluid in the working fluid circuit, an expander located between the high pressure side and the low pressure side of the working fluid circuit, the expander operative to convert a pressure/enthalpy drop in the working fluid to mechanical energy, a recuperator in the working fluid circuit operative to transfer thermal energy between the high pressure side and the low pressure side of the working fluid circuit, a cooler in thermal communication with the low pressure side of the working fluid circuit operative to control temperature of the working fluid in the low side of the working fluid circuit, a pump in the working fluid circuit and connected to the low pressure side and to the high pressure side of the working fluid circuit and operative to move the working fluid through the working fluid circuit, and a mass management system connected to the working fluid circuit, the mass management system, method and device having a working fluid vessel connected to the low pressure side of the working fluid circuit and configured to passively control an amount of working fluid mass in the working fluid circuit.

摘要翻译： 废热回收系统，方法和装置在具有高压侧和低压侧的工作流体回路中使用工作流体执行热力循环。 工作流体回路中的系统的部件包括与也连接到工作流体回路的废热源热连通的废热交换器，由此热能从废热源传递到工作流体回路中的工作流体， 位于工作流体回路的高压侧和低压侧之间的膨胀器，膨胀器可操作以将工作流体中的压力/焓降转换为机械能;工作流体回路中的换热器，其可操作以在 工作流体回路的高压侧和低压侧，与工作流体回路的低压侧热连通的冷却器，用于控制工作流体回路的低侧的工作流体的温度，泵 在工作流体回路中并连接到工作流体回路的低压侧和高压侧 可操作地将工作流体移动通过工作流体回路，以及连接到工作流体回路的质量管理系统，质量管理系统，方法和装置，其具有连接到工作流体回路的低压侧的工作流体容器， 被动地控制工作流体回路中的工作流体质量。

公开(公告)号：US20120247455A1

公开(公告)日：2012-10-04

申请号：US13389023

申请日：2010-08-06

申请人： Michael Gurin ,  Timothy James Held ,  Jason D. Miller

发明人： Michael Gurin ,  Timothy James Held ,  Jason D. Miller

IPC分类号： F24J2/04 ,  F24J2/44 ,  F24J2/46 ,  F24J2/30

CPC分类号： F24D11/0221 ,  Y02B10/20 ,  Y02B10/70

摘要： Solar energy conversion systems and methods use solar collectors and working fluid management systems to provide both efficient and safe operation under a wide range of operating conditions. In one embodiment, a solar collector and at least one fluid accumulator preferably with an integral heat exchanger, and at least two mass flow regulator valves enable working fluid flow into and out of the fluid accumulator.

摘要翻译： 太阳能转换系统和方法使用太阳能收集器和工作流体管理系统来在宽范围的操作条件下提供有效和安全的操作。 在一个实施例中，太阳能收集器和至少一个优选地具有整体热交换器的流体蓄积器和至少两个质量流量调节阀使工作流体能够流入和流出流体蓄积器。

公开(公告)号：US08794002B2

公开(公告)日：2014-08-05

申请号：US12631400

申请日：2009-12-04

申请人： Timothy J. Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

发明人： Timothy J. Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

IPC分类号： F01K25/08

CPC分类号： F01K25/103 ,  F01K3/185 ,  F01K3/186 ,  F01K7/165 ,  F24H2240/12 ,  Y02T10/16

摘要： A method for converting thermal energy into mechanical energy in a thermodynamic cycle includes placing a thermal energy source in thermal communication with a heat exchanger arranged in a working fluid circuit containing a working fluid (e.g., sc-CO2) and having a high pressure side and a low pressure side. The method also includes regulating an amount of working fluid within the working fluid circuit via a mass management system having a working fluid vessel, pumping the working fluid through the working fluid circuit, and expanding the working fluid to generate mechanical energy. The method further includes directing the working fluid away from the expander through the working fluid circuit, controlling a flow of the working fluid in a supercritical state from the high pressure side to the working fluid vessel, and controlling a flow of the working fluid from the working fluid vessel to the low pressure side.

摘要翻译： 一种在热循环中将热能转换为机械能的方法包括将热能源与布置在包含工作流体（例如，sc-CO 2）并且具有高压侧的工作流体回路中的热交换器热连通， 低压侧。 该方法还包括通过具有工作流体容器的质量管理系统来调节工作流体回路内的工作流体的量，将工作流体泵送通过工作流体回路，以及膨胀工作流体以产生机械能。 该方法还包括将工作流体从膨胀机引导通过工作流体回路，控制工作流体在超临界状态从高压侧流向工作流体容器的流动，以及控制工作流体从 工作流体容器到低压侧。

公开(公告)号：US20100156112A1

公开(公告)日：2010-06-24

申请号：US12631379

申请日：2009-12-04

申请人： Timothy J. Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

发明人： Timothy J. Held ,  Stephen Hostler ,  Jason D. Miller ,  Brian F. Hume

IPC分类号： H02K7/18 ,  F01K27/00 ,  F04B17/03

CPC分类号： F01K25/103 ,  F01K3/185 ,  F01K3/186 ,  F01K7/165 ,  F24H2240/12 ,  Y02T10/16

摘要： A waste heat recovery system, method and device executes a thermodynamic cycle using a working fluid in a working fluid circuit which has a high pressure side and a low pressure side. Components of the system in the working fluid circuit include a waste heat exchanger in thermal communication with a waste heat source also connected to the working fluid circuit, whereby thermal energy is transferred from the waste heat source to the working fluid in the working fluid circuit, an expander located between the high pressure side and the low pressure side of the working fluid circuit, the expander operative to convert a pressure/enthalpy drop in the working fluid to mechanical energy, a recuperator in the working fluid circuit operative to transfer thermal energy between the high pressure side and the low pressure side of the working fluid circuit, a cooler in thermal communication with the low pressure side of the working fluid circuit operative to control temperature of the working fluid in the low side of the working fluid circuit, a pump in the working fluid circuit and connected to the low pressure side and to the high pressure side of the working fluid circuit and operative to move the working fluid through the working fluid circuit, and a mass management system connected to the working fluid circuit, the mass management system, method and device having a working fluid vessel connected to the low pressure side of the working fluid circuit and configured to passively control an amount of working fluid mass in the working fluid circuit.

摘要翻译： 废热回收系统，方法和装置在具有高压侧和低压侧的工作流体回路中使用工作流体执行热力循环。 工作流体回路中的系统的部件包括与也连接到工作流体回路的废热源热连通的废热交换器，由此热能从废热源传递到工作流体回路中的工作流体， 膨胀器，其位于工作流体回路的高压侧和低压侧之间，膨胀器可操作以将工作流体中的压力/焓降转换为机械能;工作流体回路中的换热器，可操作以在 工作流体回路的高压侧和低压侧，与工作流体回路的低压侧热连通的冷却器，用于控制工作流体回路的低侧的工作流体的温度，泵 在工作流体回路中并连接到工作流体回路的低压侧和高压侧 可操作地将工作流体移动通过工作流体回路，以及连接到工作流体回路的质量管理系统，质量管理系统，方法和装置，其具有连接到工作流体回路的低压侧的工作流体容器， 被动地控制工作流体回路中的工作流体质量。