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    • 22. 发明申请
    • A DEVICE, METHOD AND VESSEL ASSEMBLY FOR THE MEASUREMENT OF HEAT FLOW AT LEAST ONE SAMPLE
    • 用于测量至少一个样品的热流的装置,方法和容器装置
    • WO2007139498A1
    • 2007-12-06
    • PCT/SE2007/050368
    • 2007-05-29
    • SYMCEL ABHALLÉN, DanWADSÖ, Ingemar
    • HALLÉN, DanWADSÖ, Ingemar
    • G01K17/00G01N25/48
    • G01N25/18G01K17/00
    • The present invention relates to a device and a method for the measurement of heat flow from at least one sample. The device 1 is adapted to receive a multi well vessel assembly (2) with samples in one or several vessels (21, 22,.... 2n). The device (1) comprises an opening (11) for insertion of the vessel assembly (2) into the device (1), a measurement chamber (12) with a heat sink (13), a channel (14) extending from the opening (11) to the measurement chamber (12). The present invention specifically teaches that the opening (11) and channel (14) leads horizontally into the device (1), and that the height of the opening (11), channel (14) and measurement chamber (12) is only high enough to receive the vessel assembly (2).
    • 本发明涉及一种用于测量来自至少一个样品的热流的装置和方法。 装置1适于在一个或多个容器(21,22,... 2n)中接收具有样品的多孔容器组件(2)。 装置(1)包括用于将容器组件(2)插入到装置(1)中的开口(11),具有散热器(13)的测量室(12),从开口 (11)连接到测量室(12)。 本发明具体地指出,开口(11)和通道(14)水平地引导到装置(1)中,并且开口(11),通道(14)和测量室(12)的高度仅足够高 接收容器组件(2)。
    • 24. 发明申请
    • AUTOMATED CALORIMETER
    • 自动压缩机
    • WO2006121735A3
    • 2007-07-26
    • PCT/US2006017030
    • 2006-05-04
    • LECO CORPBRUSHWYLER KEVIN R
    • BRUSHWYLER KEVIN R
    • G01N25/26G01K17/00G01N25/00
    • G01N25/4866G01K17/00G01N25/44Y10T436/208339
    • An automated apparatus for determining the calorific value of combustible substances employs an integrated, isothermal water reservoir to reduce complexity of the apparatus and facilitates automation of the calorimeter by providing a convenient source of isothermal water. A moving divider is used to reconfigure the isothermal water reservoir (70) to either provide the temperature equilibration prior to sample analysis or define a fixed volume of water during analysis in which high precision temperature measurements can be recorded. The apparatus includes mechanisms for controlling the moving divider, a sample holding combustion vessel (20), and loading, cleaning, and unloading the combustion vessel. This eliminates key analysis steps that had previously required by manual intervention by an operator.
    • 用于确定可燃物质的热值的自动化装置采用集成的等温蓄水器来降低装置的复杂性,并通过提供方便的等温水源来促进量热计的自动化。 移动分隔器用于重新配置等温水储存器(70),以在样品分析之前提供温度平衡或在分析期间限定固定体积的水,其中可记录高精度温度测量值。 该装置包括用于控制运动分隔器的机构,保持燃烧容器(20)的样品,以及装载,清洁和卸载燃烧容器。 这消除了操作员手动干预以前需要的关键分析步骤。
    • 27. 发明申请
    • CALORIMETER AND METHODS OF USE THEREOF
    • 计量器及其使用方法
    • WO2005114121A3
    • 2006-03-09
    • PCT/US2005012730
    • 2005-04-14
    • UNIV CALIFORNIAGIMZEWSKI JAMES K
    • GIMZEWSKI JAMES K
    • G01K1/16G01K17/00G01N33/31
    • G01N25/20G01K1/16G01K17/00
    • The present invention provides a calorimeter device, generally comprising a reaction vessel which may be U-shaped and which may be cantilevered; and a sensor for detecting temperature changes. In various embodiments, the sensor detects heat input into or output from the reaction vessel; changes in the electrical properties of a material coated onto the reaction vessel; changes in the mechanical properties of the reaction vessel; or changes in the resonance properties of the reaction vessel. The present invention further provides arrays of a subject calorimeter device. The present invention further provides a system for detecting a temperature change. The present invention further provides methods of detecting a temperature change that occurs as a result of a chemical, biochemical, biological, light-induced, or physical process. The methods generally involve introducing a sample into a subject device, and detecting a temperature change.
    • 本发明提供了一种热量计装置,其通常包括可以是U形并且可以悬臂的反应容器; 以及用于检测温度变化的传感器。 在各种实施例中,传感器检测进入或从反应容器输出的热量; 涂覆在反应容器上的材料的电性能的变化; 反应容器机械性能的变化; 或反应容器的共振特性的变化。 本发明还提供一种主题量热仪装置的阵列。 本发明还提供一种用于检测温度变化的系统。 本发明还提供了检测作为化学,生物化学,生物学,光诱导或物理过程的结果而发生的温度变化的方法。 所述方法通常涉及将样品引入到本体装置中并检测温度变化。
    • 29. 发明申请
    • METHOD FOR THERMAL ANALYSIS OF A CLUTH-BRAKE SYSTEM
    • 一种制动系统的热分析方法
    • WO2002084242A1
    • 2002-10-24
    • PCT/US2002/005953
    • 2002-02-27
    • CATERPILLAR INC.
    • FERRELL, Wayne, M.IYER, Ganesh, R.SUGAVANAM, Ramesh
    • G01K17/00
    • G01K7/42
    • A method having for providing a thermal analysis of an assembly (206) having a first component (208) with an attached friction material controllably engaged with a second component (210). The method includes the steps of determining an initial interface temperature of the first and second components (208, 210), determining a first net heat flux split as a function of the initial interface temperature, determining a first net heat flux into the first component (208) and a second net heat flux into the second component (210) as a function of the heat flux split, and determining a first and a second real interface temperature of the respective first and second components (208, 210) as afunction of the respective first and second net heat fluxes.
    • 一种用于提供具有第一部件(208)的组件(206)的热分析的方法,其具有可控制地与第二部件(210)接合的附接的摩擦材料。 该方法包括以下步骤:确定第一和第二组分(208,210)的初始界面温度,确定作为初始界面温度的函数的第一净热通量分裂,确定进入第一组分的第一净热通量( 208)和作为热通量分裂的函数的第二组件(210)中的第二净热通量,以及确定相应的第一和第二组件(208,210)的第一和第二实际界面温度作为 相应的第一和第二净热通量。
    • 30. 发明申请
    • OPTICAL POWER MONITOR
    • 光功率监视器
    • WO0245299A3
    • 2002-08-01
    • PCT/GB0105309
    • 2001-11-30
    • ALCATEL OPTRONICS UK LTDKYMATA NETHERLANDS B VLAMING RICHARD IANVAN WEERDEN HARM
    • LAMING RICHARD IANVAN WEERDEN HARM
    • G01J3/28G01K17/00G02B6/12G02B6/122G02B6/34H04B10/08
    • G02B6/12016G01J3/28G01K17/003G02B6/12004G02B6/12019G02B6/1228G02B2006/12195
    • An optical power monitor comprises: an array waveguide grating comprising first and second optical interaction regions between which an input optical signal propagates from a first position on a first side of the first optical interaction region to a second position on a second side of the second optical interaction region, a correspondence between said first and second positions depending upon a wavelength of the optical signal, there being a plurality of array waveguides coupled between a second side of the first optical interaction region and a first side of the second optical interaction region, and a plurality of output waveguides coupled at one end to the second side of the second optical interaction region for outputting different wavelength channel outputs from the second optical interaction region; and detectors for detecting said different wavelength channel outputs at the other ends of the output waveguides; wherein the plurality of output waveguides include at least two output waveguides for at least one of the wavelength channels.
    • 光功率监视器包括:阵列波导光栅,包括第一和第二光学相互作用区域,输入光信号在第一和第二光学相互作用区域之间从第一光学相互作用区域的第一侧上的第一位置传播到第二光学相互作用区域的第二侧上的第二位置 所述第一和第二位置之间的对应关系取决于所述光信号的波长,存在耦合在所述第一光学相互作用区域的第二侧和所述第二光学相互作用区域的第一侧之间的多个阵列波导,以及 多个输出波导在一端耦合到第二光学相互作用区域的第二侧,用于从第二光学相互作用区域输出不同的波长信道输出; 以及检测器,用于在输出波导的另一端检测所述不同波长信道输出; 其中所述多个输出波导包括用于所述波长通道中的至少一个的至少两个输出波导。