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1. 发明申请

WO2015179696A1 TRACKING SYSTEM AND METHOD FOR USE IN SURVEYING AMUSEMENT PARK EQUIPMENT 审中-公开
标题翻译：跟踪系统和方法用于调查公园设备
公开(公告)号：WO2015179696A1
公开(公告)日：2015-11-26
申请号：PCT/US2015/032051
申请日：2015-05-21
申请人： UNIVERSAL CITY STUDIOS LLC
发明人： CORTELYOU, Robert J. , BLUM, Steven C. , STENZLER, Paula , OLIVER, Christopher , MCQUILLIAN, Brian B. , SCHWARTZ, Justin M. , KIDDOO, Michael R.
IPC分类号： G06K9/32 , G06K9/00 , G08G1/095 , G08G1/07 , G08G1/08 , G06T7/00
CPC分类号： G01V8/14 , G01N17/008 , G01N21/8422 , G01N21/8851 , G01N2021/8896 , G06K9/00771 , G06T7/20 , G06T2207/10048 , G06T2207/30196 , G06T2207/30204 , G06T2207/30208 , G06T2207/30232
摘要： A dynamic signal to noise ratio tracking system (10) enables detection and tracking of amusement park equipment (12) within the field of view of the tracking system (10). The tracking system (10) may include an emitter (14) configured to emit electromagnetic radiation within an area, a detector (16) configured to detect electromagnetic radiation reflected back from vehicles (204) within the area, and a control unit (18) configured to evaluate signals from the detector (16) to survey the amusement park equipment (12) to determine whether the equipment (12) has degraded or shifted.
摘要翻译：动态信噪比跟踪系统（10）能够在跟踪系统（10）的视场内检测和跟踪游乐场设备（12）。跟踪系统（10）可以包括被配置为在区域内发射电磁辐射的发射器（14），被配置为检测从该区域内的车辆（204）反射的电磁辐射的检测器（16），以及控制单元（18）被配置为评估来自所述检测器（16）的信号以调查所述游乐场设备（12）以确定所述设备（12）是否已经劣化或偏移。

2. 发明申请

WO2015097221A3 METHOD FOR QUANTITATIVE ESTIMATION OF FOULING OF THE SPACERS PLATES IN A STEAM GENERATOR 审中-公开
标题翻译：蒸汽发生器间隔板定量估算方法
公开(公告)号：WO2015097221A3
公开(公告)日：2015-08-13
申请号：PCT/EP2014079163
申请日：2014-12-23
申请人： ELECTRICITE DE FRANCE
发明人： RENARD BRUNO , PAUL NICOLAS
IPC分类号： G05B23/02 , G01N27/90 , G21C17/017
CPC分类号： G01N17/008 , F01K7/16 , G05B23/0221 , G06F17/16 , G06F17/18 , G21C17/017
摘要： The invention relates to a method for evaluating fouling of the passages of a spacer plate (10) of a shell-and-tube heat exchanger (11), wherein said passages (12a, 12b) are provided along the tubes (11) to allow fluid to flow through the spacer plate (10), wherein, for each of a plurality of at least one passage (12a, 12b): - at least one measurement of a parameter dependent on fouling or the presence of magnetite is made in the vicinity of the passage, using an eddy current probe; - this measurement is used to derive at least one indicator of the fouling of said passage, characterized in that said fouling is evaluated by comparing a set of one or more fouling indicator vectors of dimension of at least two, built from the fouling indicators thus obtained with a plurality of fouling indicator vector sets contained in a database, wherein each of said indicator vector sets is associated with a quantitative descriptor of fouling.
摘要翻译：本发明涉及一种用于评估管壳式热交换器（11）的间隔板（10）的通道的污染的方法，其中所述通道（12a，12b）沿管（11）设置以允许流体流过间隔板（10），其中，对于多个至少一个通道（12a，12b）中的每一个， - 在附近进行至少一个取决于结垢或磁铁矿存在的参数的测量的通道，使用涡流探头; - 该测量用于导出所述通道的污垢的至少一个指示器，其特征在于，通过比较由所获得的污垢指示器构建的至少两个维度的一个或多个污垢指示剂向量的集合来评估所述结垢其中包含在数据库中的多个结垢指示符向量集合，其中每个所述指示符向量集合与污染的定量描述符相关联。

3. 发明申请

WO2014114887A1 PROCÉDÉ D'INTERVENTION SUR DES CANALISATIONS SOUS-MARINES 审中-公开
标题翻译：在水管下进行工作的方法
公开(公告)号：WO2014114887A1
公开(公告)日：2014-07-31
申请号：PCT/FR2014/050134
申请日：2014-01-23
申请人： TOTAL SA
发明人： ALCURI, Gustavo , SOMERS, Alexander , COURBOT, Anne , OUCHENE, Saïd Ben Chalellou
IPC分类号： G01N17/00 , B08B3/12 , B08B9/027 , F28G7/00
CPC分类号： B08B3/12 , B08B9/027 , B08B9/0321 , B08B2209/005 , F16L1/26 , F28G7/00 , G01N17/008 , G01N29/043 , G01N2291/044 , G01N2291/2634
摘要： Pour intervenir sur une canalisation sous-marine, un appareillage comprenant un système d'émission d'ultrasons et au moins un transducteur de réception d'ultrasons (20) est descendu dans le milieu marin. Dans une phase d'inspection, une source ultrasonore d'inspection (14, 14a) du système d'émission d'ultrasons et le transducteur de réception sont disposés de part et d'autre de la canalisation, la source d'inspection est activée, et un signal ultrasonore capté par le transducteur de réception est enregistré. Une condition de localisation d'une obstruction est détectée à l'emplacement où sont disposés la source d'inspection et le transducteur de réception en réponse à l'observation d'une anomalie dans le signal ultrasonore capté par le transducteur de réception à cet emplacement. Dans une phase de destruction, une source de puissance (14, 14b) du système d'émission d'ultrasons est alors couplée à la canalisation à cet emplacement, et la source de puissance est activée pour détruire l'obstruction.
摘要翻译：为了在水下管道上进行工作，包括超声波发射系统和至少一个超声波接收换能器（20）的装置被降低到海洋环境中。在检查阶段期间，超声波发射系统的超声检查源（14,14a）和接收换能器设置在管道的每侧，检测源被激活，并且记录由接收换能器捕获的超声信号。检查步骤还包括响应于在所述位置处观察由接收换能器捕获的超声信号中的异常来检测用于在检查源和接收换能器被设置的位置处定位障碍物的状况。在破坏阶段，超声发射系统的电源（14,14b）然后在上述位置处耦合到管道，并且激活电源以破坏阻塞物。

4. 发明申请

WO2014099755A1 METHOD AND APPARATUS FOR ESTIMATING FOULING FACTOR AND/OR INVERSE SOLUBLE SCALE THICKNESS IN HEAT TRANSFER EQUIPMENT 审中-公开
标题翻译：用于估算热交换器中的浮动因子和/或反向可调尺寸厚度的方法和装置
公开(公告)号：WO2014099755A1
公开(公告)日：2014-06-26
申请号：PCT/US2013/075341
申请日：2013-12-16
申请人： HERCULES INCORPORATED
发明人： BLISS, Terry, Lynn , PATTERSON, Timothy, Frederick
IPC分类号： G01N25/18 , G01N17/00
CPC分类号： G01K1/16 , F28G15/003 , G01N17/008 , G01N25/18
摘要： Scale deposition on a heat transfer surface in a liquid system such as a heat exchanger is estimated by directing of small portion of the liquid flow through a test cell, consisting of a sensor (10) positioned on and projecting through a conduit wall (32). The sensor (10) consists of a conductive block (16) containing a heater (14) and having a heated wetted test surface (22) that is flush with the inside of the conduit wall (32) and in contact with the flow through the conduit (11). Within the conductive block (16) are two temperature sensors (18, 20) which are at different distances from the heated wetted test surface (22) and the heater (14). The periphery of the apparatus (10) is designed to reduce heat flow through the periphery and allow greater heat flow through the heated wetted test surface (22). By comparing the temperature differential between the two temperature sensors (18, 20) to the differential when no scale (40) is present, the presence of and amount of scale (40) can be determined, based on reduced heat transfer through the heated wetted surface (22) caused by the accumulated scale (40). The change in the temperature differential is directly proportional to the scale thickness for a given type of scale (40). When the thickness of the scale (40) is determined by another means, the nature of the scale (40) can be implied. The sensitivity of the measurement can be adjusted to accommodate a very wide range of bulk liquid (36) or ambient temperature via adjustment of the heat flux through the provided secondary heat flux path.
摘要翻译：通过将小部分的液体流引导到由位于导管壁（32）上并通过导管壁（32）突出的传感器（10））的测试电池来估计在诸如热交换器的液体系统中的传热表面上的结垢沉积，。传感器（10）由包含加热器（14）的导电块（16）组成，并且具有与导管壁（32）的内部齐平且与通过导管壁（32）的流体相接触的加热的润湿测试表面（22）导管（11）。在导电块（16）内的两个温度传感器（18,20）与加热的润湿试验表面（22）和加热器（14）处于不同的距离。设备（10）的周边设计成减少通过周边的热流，并允许通过加热的润湿的测试表面（22）的更大的热流。通过将两个温度传感器（18,20）之间的温差与不存在刻度（40）的差动器进行比较，可以基于通过加热润湿的传热减少的传热来确定刻度（40）的存在和数量表面（22）由累积刻度（40）引起。对于给定类型的刻度（40），温差的变化与刻度厚度成正比。当秤（40）的厚度由另一装置确定时，可以暗示秤（40）的性质。可以通过调节通过所提供的二次热通量路径的热通量来调节测量的灵敏度以适应非常宽范围的体液（36）或环境温度。

5. 发明申请

WO2013092819A3 METHOD AND DEVICE FOR DETECTING AND ANALYZING DEPOSITS 审中-公开
标题翻译：用于检测和分析沉积物的方法和装置
公开(公告)号：WO2013092819A3
公开(公告)日：2013-08-29
申请号：PCT/EP2012076313
申请日：2012-12-20
申请人： ASHLAND LICENSING & INTELLECTU , ASHLAND DEUTSCHLAND GMBH
发明人： SEIDA FRANK , FLOCKEN CHRISTIAN , BIERGANNS PATRIC , SCHULTZ MICHAEL
IPC分类号： G01N17/00 , G01N29/44
CPC分类号： G01B17/02 , G01N17/008 , G01N29/07 , G01N29/44 , G01N2291/011 , G01N2291/0237 , G01N2291/02854 , G01N2291/0289 , G01N2291/044 , G01N2291/045 , G01N2291/101
摘要： The present invention relates to a method and a device for detecting and analyzing deposits in a liquid-bearing system. In particular, the method comprising steps of: Emitting an ultrasonic emission signal towards the reflecting area by an ultrasonic transducer in a first step, detecting a ultrasonic reflection signal obtained by reflection of the ultrasonic emission signal in the reflecting area by detection means in a second step, determining a distribution of the run time of the detected ultrasonic reflection signal in response to a specified variable in a third step and analyzing the distribution in a fourth step in order to determine if deposits are deposited at least partially onto the reflecting area.
摘要翻译：本发明涉及一种用于检测和分析液体承载系统中的沉积物的方法和装置。特别地，该方法包括以下步骤：在第一步骤中，通过超声波换能器向反射区域发射超声波发射信号，通过检测装置检测在反射区域中反射超声波发射信号而获得的超声波反射信号步骤，在第三步骤中响应于指定的变量确定检测到的超声波反射信号的运行时间的分布，并且在第四步骤中分析分布，以便确定沉积物是否至少部分地沉积到反射区域上。

6. 发明申请

WO2012177737A1 DEVICE AND METHOD FOR MONITORING INTERACTION BETWEEN A FLUID AND A WALL 审中-公开
标题翻译：用于监测流体与壁之间相互作用的装置和方法
公开(公告)号：WO2012177737A1
公开(公告)日：2012-12-27
申请号：PCT/US2012/043309
申请日：2012-06-20
申请人： SHEVEREV, Valery, A. , OHIO UNIVERSITY , NESIC, Srdjan
发明人： SHEVEREV, Valery, A. , NESIC, Srdjan
IPC分类号： G01N17/00 , G01N17/04
CPC分类号： G01N29/02 , G01N17/008 , G01N17/04 , G01N2013/0216
摘要： A sensor device (2) that can be used with a structural component having a wall (10) and containing a fluid that includes a mechanical oscillator (32). The mechanical oscillator (32) includes a floating member (6) configured to be susceptible to the fluid and a support member (18) configured to not be susceptible to the fluid. The mechanical oscillator (32) is affixed within a housing (4) that is adaptably fastened to the structural component such that the floating member (6) contacts the fluid. A mechanical response sensing system (2) is configured to measure a mechanical characteristic of the combined floating member (6) and the support member (18). The mechanical characteristic is configured to be indicative of the interaction between the fluid and the wall (10). In use, fluid is directed along the floating member (6). The mechanical oscillator (32) oscillates, a first value of the mechanical characteristic is measured, and fluid contacts the floating member (6) causing an effect to the floating member (6). The support member (18) is protected from the effect of the fluid and a second value of the mechanical characteristic is measured after a predetermined period of time after the floating member (6) is contacted with the fluid.
摘要翻译：一种传感器装置（2），其可与具有壁（10）并且包含包括机械振荡器（32）的流体的结构部件一起使用。机械振荡器（32）包括构造成易受流体影响的浮动构件（6）和构造成不易受流体影响的支撑构件（18）。机械振荡器（32）固定在壳体（4）内，该壳体（4）适于紧固到结构部件，使得浮动部件（6）接触流体。机械响应感测系统（2）被配置为测量组合的浮动构件（6）和支撑构件（18）的机械特性。机械特征被配置为指示流体和壁（10）之间的相互作用。在使用中，流体沿浮动件（6）被引导。机械振荡器（32）振荡，测量机械特性的第一值，并且流体接触浮动部件（6），从而对浮动部件（6）产生影响。支撑构件（18）被保护免受流体的影响，并且在浮动构件（6）与流体接触之后的预定时间段之后测量机械特性的第二值。

7. 发明申请

WO2012068222A1 METHODS FOR MITIGATING FOULING OF PROCESS EQUIPMENT 审中-公开
标题翻译：减少过程设备排放的方法
公开(公告)号：WO2012068222A1
公开(公告)日：2012-05-24
申请号：PCT/US2011/060943
申请日：2011-11-16
申请人： EXXONMOBIL RESEARCH AND ENGINEERING COMPANY , HO, Teh, C. , BRONS, Glen, B.
发明人： HO, Teh, C. , BRONS, Glen, B.
IPC分类号： G01N17/00 , G01N25/18 , G01N33/28 , C10G75/04
CPC分类号： G01N17/008 , C10G75/00 , C10G75/04 , C10G2300/1033 , C10G2300/202 , C10G2300/205 , C10G2300/4075 , G01N25/18
摘要： Methods for determining the fouling propensity of a hydrocarbon stream and for reducing fouling are provided. In one method, the fouling propensity of a hydrocarbon stream is determined by obtaining a parameter indicative of the fouling propensity by a regression of a series of temperature measurements data for the hydrocarbon stream exiting a test unit. In another method, an effective minimal amount of an antifoulant is added to a hydrocarbon stream to reduce fouling, where the amount of the antifoulant is determined based on the fouling propensity of the hydrocarbon stream.
摘要翻译：提供了确定烃流的污染倾向和减少结垢的方法。在一种方法中，烃流的结垢倾向通过通过一系列离开测试单元的烃流的温度测量数据的回归获得指示污垢倾向的参数来确定。在另一种方法中，将有效的最小量的防污剂添加到烃流中以减少结垢，其中防污剂的量基于烃流的结垢倾向来确定。

8. 发明申请

WO2011069556A1 FOULING DETECTION SETUP AND METHOD TO DETECT FOULING 审中-公开
标题翻译：发现检测设置和检测方法
公开(公告)号：WO2011069556A1
公开(公告)日：2011-06-16
申请号：PCT/EP2009/066923
申请日：2009-12-11
申请人： ECOLAB INC. , CAUSSIN DE SCHNECK, Claudia , FORSTER, Hartmut , HELMINGER, Karl , KRACK, Ralf , NAJMAN, Robert
发明人： CAUSSIN DE SCHNECK, Claudia , FORSTER, Hartmut , HELMINGER, Karl , KRACK, Ralf , NAJMAN, Robert
IPC分类号： G01N27/06 , G01N17/00 , G01N21/15
CPC分类号： G01N21/15 , B01D65/10 , G01N17/008 , G01N2021/155 , G01N2021/157
摘要： The invention refers to a fouling detection setup (1 ) and method for determining the amount of fouling (5) of surfaces (3) of fluid (6) treating devices (2) and/or internal functional components (4) of such devices, which are exposed to said fluid and are subjected to fouling. Fouling detection setups and methods are useful for monitoring the amount of fouling of surfaces, e.g. heat-transfer surfaces and also for monitoring the cleaning procedure of such fluid treating devices and/or internal functional components of such devices. According to the invention the detection setup (1 ) comprises at least one first sensor (7), with means (9) for measuring the optical transparency T and/or electrical conductive conductivity Q of said fluid (6). The Sensor includes at least one sensitive area (8) that is located nearby and/or within said surfaces (3) and wherein said area is at least temporarily exposed to said fluid (6).
摘要翻译：本发明涉及一种用于确定处理装置（2）和/或这些装置的内部功能部件（4）的流体（6）的表面（3）的结垢量（5）的污垢检测装置（1）和方法，其暴露于所述流体并且被污染。结垢检测装置和方法可用于监测表面的结垢量，例如，传热表面，并且还用于监测这种流体处理装置和/或这种装置的内部功能部件的清洁程序。根据本发明，检测装置（1）包括至少一个第一传感器（7），其具有用于测量所述流体（6）的光学透明度T和/或导电电导率Q的装置（9）。传感器包括位于所述表面（3）附近和/或内部的至少一个敏感区域（8），并且其中所述区域至少临时暴露于所述流体（6）。

9. 发明申请

WO2008100267A2 STEAM GENERATOR MAPPING SYSTEM 审中-公开
标题翻译：蒸汽发生器映射系统
公开(公告)号：WO2008100267A2
公开(公告)日：2008-08-21
申请号：PCT/US2007013187
申请日：2007-06-04
申请人： AREVA NP INC , WYATT JOSEPH R , GRIFFITH JOHN CARROLL , NEWMAN VICTOR , FLECK JEFFREY M
发明人： WYATT JOSEPH R , GRIFFITH JOHN CARROLL , NEWMAN VICTOR , FLECK JEFFREY M
IPC分类号： G01B7/06
CPC分类号： G01B7/06 , G01B7/105 , G01B21/042 , G01N17/008
摘要： A method to determine deposits in a steam generator having the steps of creating a calibration standard having at least two rings of deposit material, subjecting the calibration standard to an eddy current signal, wherein an amplitude of the signal reflected from the calibration standard is used to obtain a polynomial equation fit of the reflected eddy current signals to actual thickness of the rings, obtaining a steam generator with tubes, initiating an eddy current signal into the tubes of the steam generator, detecting and recording reflections of the eddy current signal initiated into the tubes of the steam generator, and determining a thickness of the deposits in the steam generator from the recorded reflections of the eddy current signal and the polynomial equation.
摘要翻译：一种用于确定蒸汽发生器中的沉积物的方法，其具有创建具有至少两个沉积材料环的校准标准的步骤，使校准标准经受涡流信号，其中使用从校准标准反射的信号的幅度获得反射涡流信号与环的实际厚度的多项式方程拟合，获得具有管的蒸汽发生器，将涡电流信号引入蒸汽发生器的管中，检测和记录引入到涡流信号的涡流信号的反射蒸汽发生器的管，以及根据所记录的涡流信号和多项式方程的反射来确定蒸汽发生器中沉积物的厚度。

10. 发明申请

WO2008073758A2 DEPOSIT REMOVAL PROBE AND METHOD OF USE 审中-公开
标题翻译：沉积物去除探针和使用方法
公开(公告)号：WO2008073758A2
公开(公告)日：2008-06-19
申请号：PCT/US2007/086354
申请日：2007-12-04
申请人： NALCO COMPANY , HORSUP, David, I.
发明人： HORSUP, David, I.
IPC分类号： G01N17/04
CPC分类号： G01N17/008
摘要： A deposit removal probe for monitoring the effectiveness of a chemical at removing deposits from the internal surface of a pipeline used to transport fluids comprising a chamber constructed from mesh having a pore size sufficient to retain a sample of said deposit in said chamber while also allowing the deposit to be removed from the chamber with the action of the chemical and liquid flow through the pipeline and methods of using the probe to determine the effectiveness of a chemical at removing deposits from the internal surface of a pipeline and monitor corrosion rates of surfaces in contact with the deposit and in the bulk fluid.
摘要翻译：一种用于监测化学品从用于输送流体的管道的内表面去除沉积物的沉积物的有效性的沉积物去除探针，其包括由网孔构成的室，所述孔具有足以将所述沉积物的样品保留在所述室中的孔径，同时还允许沉积物通过化学和液体流动通过管道的作用被移除，并且使用探针来确定化学品从管道内表面去除沉积物的有效性并监测接触表面的腐蚀速率与沉积物和散装液体。

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