会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Integrated engine exhaust and heat process flexible and low emissions combined heat and power process and system
    • 集成发动机排气和热处理灵活,低排放的热电联动系统
    • US09062579B2
    • 2015-06-23
    • US13157625
    • 2011-06-10
    • John T. KellyCarlo CastaldiniMeladi Namazian
    • John T. KellyCarlo CastaldiniMeladi Namazian
    • F01N3/10F01N5/02
    • F01N5/04F01N3/10F01N5/02Y02T10/16
    • The invention provides systems and methods for electric power production and integrated combustion and emissions control. The invention may include an engine capable of receiving air and fuel, and producing power and an engine exhaust gas. The invention may also include a first reaction zone receiving the engine exhaust gas from the engine configured to combust fuel and air having an equivalence ratio of more than one, thereby generating a first product. The combustion may reduce nitrogen containing species. The invention may also include a second reaction zone receiving the engine exhaust gas from the engine configured to combust fuel and air having an equivalence ratio of less than one, thereby generating a second product. The combustion may reduce or minimize NOx. The invention may also include a mixing zone configured to receive the first product and second product, and mix and react the first and second products, thereby generating an exhaust with reduced NOx levels. This may occur with sufficient residence time and temperature to complete combustion and promote nitrogenous species reduction reactions. For inventions with multiple zones, fuel or air or exhaust gas may be adjusted, diverted or turned off as load is reduced to maintain flame stability for all zones that remaining operational. For inventions with engine exhaust that provides less oxidant than the burner requires, an air eductor means may be arranged between the engine and the burner that entrains needed additional oxidant and simultaneously recovers the flow energy in the turbine exhaust.
    • 本发明提供了用于电力生产和综合燃烧和排放控制的系统和方法。 本发明可以包括能够接收空气和燃料并且产生动力和发动机废气的发动机。 本发明还可以包括接收来自发动机的发动机废气的第一反应区域,其构造成燃烧具有多于一个的当量比的燃料和空气,从而产生第一产物。 燃烧可以减少含氮物种。 本发明还可以包括第二反应区,其接收来自发动机的发动机废气,其构造成燃烧具有小于1的当量比的燃料和空气,从而产生第二产物。 燃烧可以减少或最小化NOx。 本发明还可以包括配置成接收第一产品和第二产品的混合区,并且混合和反应第一和第二产品,从而产生具有降低的NOx水平的排气。 这可能发生在足够的停留时间和温度下完成燃烧并促进含氮物质还原反应。 对于具有多个区域的发明,燃料或空气或废气可能被调节,转向或关闭,因为减少了负载以维持所有保持运行的区域的火焰稳定性。 对于具有比燃烧器要求更少的氧化剂的发动机排气的发明,可以在发动机和燃烧器之间布置空气喷射装置,其夹带所需的另外的氧化剂并同时回收涡轮机排气中的流动能量。
    • 2. 发明申请
    • INTEGRATED ENGINE EXHAUST AND HEAT PROCESS FLEXIBLE AND LOW EMISSIONS COMBINED HEAT AND POWER PROCESS AND SYSTEM
    • 集成发动机排气和热过程柔性和低排放组合加热和电力过程和系统
    • US20110302902A1
    • 2011-12-15
    • US13157625
    • 2011-06-10
    • John T. KellyCarlo CastaldiniMeladi Namazian
    • John T. KellyCarlo CastaldiniMeladi Namazian
    • F01N3/10
    • F01N5/04F01N3/10F01N5/02Y02T10/16
    • The invention provides systems and methods for electric power production and integrated combustion and emissions control. The invention may include an engine capable of receiving air and fuel, and producing power and an engine exhaust gas. The invention may also include a first reaction zone receiving the engine exhaust gas from the engine configured to combust fuel and air having an equivalence ratio of more than one, thereby generating a first product. The combustion may reduce nitrogen containing species. The invention may also include a second reaction zone receiving the engine exhaust gas from the engine configured to combust fuel and air having an equivalence ratio of less than one, thereby generating a second product. The combustion may reduce or minimize NOx. The invention may also include a mixing zone configured to receive the first product and second product, and mix and react the first and second products, thereby generating an exhaust with reduced NOx levels. This may occur with sufficient residence time and temperature to complete combustion and promote nitrogenous species reduction reactions. For inventions with multiple zones, fuel or air or exhaust gas may be adjusted, diverted or turned off as load is reduced to maintain flame stability for all zones that remaining operational. For inventions with engine exhaust that provides less oxidant than the burner requires, an air eductor means may be arranged between the engine and the burner that entrains needed additional oxidant and simultaneously recovers the flow energy in the turbine exhaust.
    • 本发明提供了用于电力生产和综合燃烧和排放控制的系统和方法。 本发明可以包括能够接收空气和燃料并且产生动力和发动机废气的发动机。 本发明还可以包括接收来自发动机的发动机废气的第一反应区域,其构造成燃烧具有多于一个的当量比的燃料和空气,从而产生第一产物。 燃烧可以减少含氮物种。 本发明还可以包括第二反应区,其接收来自发动机的发动机废气,其构造成燃烧具有小于1的当量比的燃料和空气,从而产生第二产物。 燃烧可以减少或最小化NOx。 本发明还可以包括配置成接收第一产品和第二产品的混合区,并且混合和反应第一和第二产品,从而产生具有降低的NOx水平的排气。 这可能发生在足够的停留时间和温度下完成燃烧并促进含氮物质还原反应。 对于具有多个区域的发明,燃料或空气或废气可能被调节,转向或关闭,因为减少了负载以维持所有保持运行的区域的火焰稳定性。 对于具有比燃烧器要求更少的氧化剂的发动机排气的发明,可以在发动机和燃烧器之间布置空气喷射装置,其夹带所需的另外的氧化剂并同时回收涡轮机排气中的流动能量。
    • 4. 发明授权
    • Targeting display system and method
    • 瞄准显示系统和方法
    • US08939366B1
    • 2015-01-27
    • US13658681
    • 2012-10-23
    • John T. Kelly
    • John T. Kelly
    • G06F19/00
    • F41G9/00F41G3/04F41G3/14F41G3/165
    • Systems and methods for displaying information on a targeting display are provided. A method comprises positioning a targeted object proximate a center of a targeting display image and providing a reticle below the target object. The reticle is configured to identify the targeted object to a user of the targeting display. The method further comprises providing a first plurality of data elements positioned along a vertical axis upon which the targeted object and reticle are also positioned. The first plurality of data elements include a range to the target, an azimuth to the target, and one or more error estimates relating to at least one of the range to the target or the azimuth to the target. The method further comprises providing a second plurality of data elements within a plurality of areas positioned proximate to one or more borders of the targeting display image.
    • 提供了在目标显示器上显示信息的系统和方法。 一种方法包括将目标对象定位在目标显示图像的中心附近并在目标对象下方提供掩模版。 标线被配置为向目标显示的用户识别目标对象。 该方法还包括提供沿着垂直轴定位的第一多个数据元素,目标对象和标线也位于该垂直轴上。 所述第一多个数据元素包括到所述目标的范围,到所述目标的方位角以及与所述目标的所述范围或所述目标的方位角中的至少一个有关的一个或多个误差估计。 所述方法还包括在定位在所述目标显示图像的一个或多个边界附近的多个区域内提供第二多个数据元素。
    • 6. 发明授权
    • Liquid fuel preprocessor
    • 液体燃料预处理器
    • US07303598B1
    • 2007-12-04
    • US10796592
    • 2004-03-05
    • Mehdi NamazianJohn T. Kelly
    • Mehdi NamazianJohn T. Kelly
    • C01B3/24
    • C01B3/34C01B2203/0227C01B2203/066C01B2203/0811C01B2203/1258C01B2203/127C01B2203/1288
    • Apparatus and process for reformulating liquid fuel. In one step of the process the fuel is fractionated into light and heavy fractionates. The light fractionate is then reformed in a steam reformer into a reformed fuel that is suitable for use in fuel cells or other energy-producing devices. The heavy fractionate is burned with a part of the resulting heat used in the reforming step. In one embodiment the light fractionate is desulfurized before entering the reforming step. In another embodiment the heavy fractionate is directed into a holding vessel for subsequent use as a fuel which is suitable for burning to produce heat or other energy.
    • 重新配制液体燃料的设备和工艺。 在该过程的一个步骤中,将燃料分馏成轻质和重质分馏物。 然后将轻馏分物在蒸汽重整器中重整成适用于燃料电池或其它能量产生装置的重整燃料。 用重整步骤中所用的一部分热量将重质分馏物燃烧。 在一个实施方案中,轻馏分在进入重整步骤之前脱硫。 在另一个实施方案中,重质分馏物被引导到保持容器中,用于随后用作适于燃烧产生热量或其他能量的燃料。
    • 9. 发明授权
    • Pulse combustion driven in-furnace NOx and SO2 control system for
furnaces and boilers
    • 用于炉和锅炉的脉冲燃烧驱动炉内NOx和SO2控制系统
    • US4940405A
    • 1990-07-10
    • US313841
    • 1989-02-23
    • John T. Kelly
    • John T. Kelly
    • F23C6/00F23C15/00F23J7/00
    • F23C15/00F23C6/00F23J7/00
    • Pulse combustors and associated air mixers are used to process fuel and calcium based sorbent outside of a furnace or boiler. liquid or solid fuel is rapidly volatilized in the air mixer of the first pulse combustor, producing high gaseous fuel content and a highly reactive char or soot. This material is then injected into the upper part of the furnace, above the conventional burners, to create a fuel rich zone which reduces previously formed nitrogen oxide (NOx) pollutants. The calcium based sorbent is injected into a second pulse combustor, located higher in the furnace. The sorbent is flash calcined in the air mixer of the pulse combustor yielding a high surface area sorbent. This material is then injected into the furnace above the first pulse combustor to reduce previously formed sulfur oxide (SO2) pollutants. In addition, the stream from this combustor and air mixer provides the air needed to completely burn out the coal fuel from the first pulse combustor. Besides a combined NOx and SO2 control, the system can be configured to only reduce either NOx or SO2.
    • 脉冲燃烧器和相关的空气混合器用于在炉子或锅炉外加工燃料和钙基吸附剂。 液体或固体燃料在第一脉冲燃烧器的空气混合器中快速挥发,产生高气体燃料含量和高反应性炭或烟灰。 然后将该材料注入到炉的上部,在常规燃烧器上方,以产生减少先前形成的氮氧化物(NOx)污染物的富燃区。 将钙基吸附剂注入位于炉中较高处的第二脉冲燃烧器中。 吸附剂在脉冲燃烧器的空气混合器中进行闪蒸,产生高表面吸附剂。 然后将该材料注入到第一脉冲燃烧器上方的炉中以减少先前形成的硫氧化物(SO 2)污染物。 此外,来自该燃烧器和空气混合器的流提供从第一脉冲燃烧器完全燃尽煤燃料所需的空气。 除了组合的NOx和SO2控制,该系统可以被配置为仅减少NOx或SO2。