公开(公告)号：US08657187B1

公开(公告)日：2014-02-25

申请号：US12173394

申请日：2008-07-15

Applicant: Timothy Tuo Li ,  Ganesh Swaminathan ,  James P. Sutton

Inventor： Timothy Tuo Li ,  Ganesh Swaminathan ,  James P. Sutton

IPC: G06K7/00

CPC classification number: G06Q20/10 ,  G06Q10/04 ,  G06Q10/06315 ,  G06Q10/0637 ,  G06Q40/02

Abstract: The invention provides systems and methods for transferring cash to and from branch banks. The method may include the steps of inputting first data relating to cash usage at a plurality of branch banks; inputting second data relating to cash usage at the particular branch bank, the second data including a known ending balance at the particular branch bank; and assimilating the first data and the second data to constitute forecasting data; and performing forecast processing to determine an amount of cash to be transferred to or from the branch bank. The forecast processing may include (1) forecasting a cash in amount and forecasting a cash out amount based on the forecasting data, and generating a projected ending balance based on the forecasted cash in amount, the forecasted cash out amount, and the known ending balance; (2) generating a forecasted ending balance; and (3) comparing the projected ending balance with the forecasted ending balance to determine a cash shipment amount. The method may also include generating a cash transfer request based on the cash shipment amount; and effecting a transfer of cash with the branch bank based on the cash transfer request.

Abstract translation: 本发明提供了用于向/从分支银行转移现金的系统和方法。 该方法可以包括以下步骤：在多个分支库处输入与现金使用有关的第一数据; 输入与所述特定分行的现金使用有关的第二数据，所述第二数据包括在所述特定分支银行的已知期末余额; 并且吸收第一数据和第二数据以构成预测数据; 并执行预测处理以确定要转移到或来自分行的现金的数量。 预测处理可以包括（1）基于预测数据预测金额现金并预测现金流量，并根据预测的现金金额，预测的现金流出金额和已知的期末余额生成预计期末余额 ; （2）产生预测期末余额; （3）将预计期末余额与预计期末余额进行比较，确定现金发货量。 该方法还可以包括基于现金出货量产生现金转移请求; 并根据现金转移请求，与分行进行现金转移。

公开(公告)号：US20110210191A1

公开(公告)日：2011-09-01

申请号：US12713602

申请日：2010-02-26

Applicant: Daniel J. Adam ,  Paul M. Bovat, JR. ,  Thomas J. Campanelli ,  Kevin J. Grzebien ,  James P. Sutton

Inventor： Daniel J. Adam ,  Paul M. Bovat, JR. ,  Thomas J. Campanelli ,  Kevin J. Grzebien ,  James P. Sutton

IPC: B05B1/00 ,  B23P17/04

CPC classification number: B05B1/00 ,  B05B15/18 ,  F23D1/00 ,  F23D2201/10 ,  F23D2201/20 ,  F23D2201/30 ,  Y10T29/49826

Abstract: Disclosed herein is an apparatus and method of constructing a stationary wear-resistant stationary nozzle 200 and/or nozzle liner 230 for solid fueled furnaces. A transition section 210 is constructed from several flat pieces 211-218 several that may have identical starting shapes. This reduces manufacturing complexity and costs. All pieces 211-218 have a high-wear weld overlay on their inner surface 316, 416. Corner pieces 215-218 are folded into a corner shape at an outlet edge 412 and rolled into a curved shape at an inlet edge 411. Horizontal 211, 212 and vertical pieces 213, 214 are only rolled at an inlet edge 311. The pieces have seam tab 240 along longitudinal edges that are welded together to construct a transition section 210. The transition section 210 may be used as a liner to reduce wear in an existing stationary nozzle or may be constructed to be connected to an inlet piece 220 to form a strong, wear-resistant coal nozzle 200.

Abstract translation: 本文公开了一种用于固体燃料炉的固定耐磨固定喷嘴200和/或喷嘴衬套230的构造的装置和方法。 过渡部分210由几个可具有相同起始形状的平片211-218构成。 这降低了制造复杂性和成本。 所有片211-218在其内表面316,416上具有高磨损焊接覆盖层。角片215-218在出口边缘412处折叠成角形，并在入口边缘411处卷成弯曲形状。水平211 ，212和垂直件213,214仅在入口边缘311处滚动。这些件具有沿着纵向边缘的接缝突片240，其被焊接在一起以构造过渡部分210.过渡部分210可以用作衬垫以减少磨损 在现有的固定喷嘴中，或者可以构造成连接到入口件220以形成坚固耐磨的煤喷嘴200。

公开(公告)号：US20090235117A1

公开(公告)日：2009-09-17

申请号：US12045833

申请日：2008-03-11

Applicant: Kevin Mooney ,  Kent D. Siefkes ,  James P. Sutton

Inventor： Kevin Mooney ,  Kent D. Siefkes ,  James P. Sutton

IPC: G06F11/07

CPC classification number: G06F11/3433 ,  G06F2201/815 ,  G06F2201/875

Abstract: The present invention provides the ability to synchronize or rendezvous multiple virtual users across multiple distributed devices in a load testing tool with reduced network message exchange between devices.

Abstract translation: 本发明提供了通过减少设备之间的网络消息交换的负载测试工具中的多个分布式设备同步或会合多个虚拟用户的能力。

公开(公告)号：US20110114763A1

公开(公告)日：2011-05-19

申请号：US12887823

申请日：2010-09-22

Applicant: Oliver G. Briggs, JR. ,  Dennis N. Barlow ,  Thomas J. Campanelli ,  Kevin T. Grzebien ,  James P. Sutton

Inventor： Oliver G. Briggs, JR. ,  Dennis N. Barlow ,  Thomas J. Campanelli ,  Kevin T. Grzebien ,  James P. Sutton

IPC: B05B15/08 ,  F16B19/00

CPC classification number: F23D1/00 ,  F23D2201/101

Abstract: Disclosed herein is a novel pivot pin assembly 410, 420 430, 600 for pivotally attaching nozzle tips 200 to stationary nozzles in a solid fuel furnace. The pivot pin assemblies allow rapid replacement of the nozzle tips 200. The pivot pin assembly 410, 420 430, 600 employs fasteners that or recessed or have an aerodynamically shaped head 610. The head 610 includes a leading edge 613 and optionally a trailing edge 615 that are aerodynamically shaped to reduce corrosion and erosion. The pivot pin assembly pivotally attaches the nozzle tip 200 to the stationary nozzle 110. It employs fasteners that are accessible from a furnace side through a central opening of the nozzle tip 200. This allows removal of the nozzle tip 200 from inside the furnace greatly simplifying nozzle tip 200 replacement.

Abstract translation: 这里公开了一种新颖的枢轴销组件410,420 430,600，用于将喷嘴尖端200可旋转地附接到固体燃料炉中的固定喷嘴。 枢轴销组件允许快速地更换喷嘴尖端200.枢轴销组件410,420 430,600使用紧固件或凹入或具有空气动力学形状的头部610.头部610包括前缘613和可选地的后缘615 它们是空气动力学的，以减少腐蚀和侵蚀。 枢轴销组件将喷嘴尖端200枢转地附接到固定喷嘴110.其采用从炉侧通过喷嘴头200的中心开口可接近的紧固件。这允许从炉内部移除喷嘴尖端200大大简化 喷嘴尖端200更换。

公开(公告)号：US07289032B2

公开(公告)日：2007-10-30

申请号：US11063602

申请日：2005-02-24

Applicant: Michel J. Seguin ,  James P. Sutton ,  Rebecca L. Tobiasz ,  Matthew D. Odinotski

Inventor： Michel J. Seguin ,  James P. Sutton ,  Rebecca L. Tobiasz ,  Matthew D. Odinotski

IPC: G06K9/00 ,  G06K9/34 ,  F23N5/08 ,  G08B17/12

CPC classification number: F23N5/082 ,  F23N2029/08 ,  G01N21/72

Abstract: Techniques for determining a characteristic of a flame are provided by the present invention. Provided are methods as well as devices. A flame is monitored across a contiguous spectral range to detect light emitted by the monitored flame. The contiguous spectral range is segmented into a plurality of discrete ranges, and detected light across each of the one or more of the plurality of discrete ranges is respectively processed to determine at least one characteristic of the flame.

Abstract translation: 用于确定火焰特性的技术由本发明提供。 提供的方法和设备。 在连续的光谱范围内监视火焰以检测被监视的火焰发射的光。 连续的光谱范围被分割成多个离散的范围，并且分别处理多个离散范围中的一个或多个离散范围中的每一个上的检测光以确定火焰的至少一个特征。

公开(公告)号：US4890920A

公开(公告)日：1990-01-02

申请号：US41495

申请日：1987-04-23

Applicant: James M. Niziolek ,  James P. Sutton, III

Inventor： James M. Niziolek ,  James P. Sutton, III

IPC: G01N15/00 ,  G01N15/02 ,  G01N21/15 ,  G01N21/53

CPC classification number: G01N21/53 ,  G01N15/0211 ,  G01N2015/0046 ,  G01N2021/151 ,  G01N2021/4707 ,  G01N2021/4716 ,  G01N2021/4719 ,  G01N2201/08

Abstract: A particle size measuring device for effecting with regard to particles present in a fluid substance the simultaneous measurement in situ of two parameters thereof; namely, particle size distribution and volumetric density. The particle size measuring device comprises a laser light source (14), a laser light conveying device (40), a collimator, a first focusing device (64), a defined sample path (74) through which particles to be measured pass, a second focusing device (78) and a detector device (82). The mode of operation of the particle size measuring device is such that the laser light from the laser light source (14) is conveyed by means of the laser light conveying device (40) to the collimator. After being collimated the laser light is transmitted to the first focusing device (64) whereby the laser light is focused and is then made to pass across the sample path (74). In the course of passing across the sample path (74), the laser light is scattered by the particles that are present in the sample path (74). Both scattered and collimated light is collected by the second focusing device (78) and the focused thereby on to the detector device (82) such that the intensity distribution of the laser light is gathered by the detector device (82). Particle size distribution is inferred from the light distribution received by the detector device (82) and volumetric density is calculated by means of a predetermined equation.

Abstract translation: 一种粒度测量装置，用于对存在于流体物质中的颗粒进行同时测量其两个参数; 即粒度分布和体积密度。 粒度测量装置包括激光源（14），激光输送装置（40），准直器，第一聚焦装置（64），待测量的颗粒通过的限定的样品路径（74） 第二对焦装置（78）和检测装置（82）。 粒度测量装置的操作模式使得来自激光光源（14）的激光通过激光输送装置（40）传送到准直器。 在被准直之后，将激光传输到第一聚焦装置（64），由此激光被聚焦，然后使其穿过样品路径（74）。 在穿过采样路径（74）的过程中，激光被存在于采样路径（74）中的颗粒散射。 通过第二聚焦装置（78）收集散射和准直光，并将其聚焦到检测器装置（82）上，使得激光的强度分布由检测装置（82）收集。 粒度分布由检测器装置（82）接收的光分布推断，并且通过预定方程计算体积密度。

公开(公告)号：US08608097B2

公开(公告)日：2013-12-17

申请号：US12941502

申请日：2010-11-08

Applicant: Robert F. Murphy ,  James P. Sutton ,  Rebecca L. Tobiasz ,  Sin K. Poon

Inventor： Robert F. Murphy ,  James P. Sutton ,  Rebecca L. Tobiasz ,  Sin K. Poon

IPC: B02C4/32

CPC classification number: B02C15/04 ,  B02C25/00

Abstract: In a system for monitoring the operating condition of a pulverizer, a sensor interface module positioned on or proximal to the pulverizer. The sensor interface module is operable to receive information generated by one or more sensors mounted on the pulverizer. An operator control station is in communication with the sensor interface module and is operable to receive data from the sensor interface module relevant to the signals received from the sensors. The operator control station is also operable to generate operational information indicative of a functional characteristic of the pulverizer and to track the operational information to determine whether degradation of the functional characteristic is occurring.

Abstract translation: 在用于监测粉碎机的操作状态的系统中，位于粉碎机上或其附近的传感器接口模块。 传感器接口模块可操作以接收由安装在粉碎机上的一个或多个传感器产生的信息。 操作员控制站与传感器接口模块通信，并且可操作以从传感器接口模块接收与从传感器接收的信号相关的数据。 操作员控制站还可操作以产生指示粉碎机的功能特征的操作信息，并且跟踪操作信息以确定是否发生功能特性的劣化。

公开(公告)号：US08110029B2

公开(公告)日：2012-02-07

申请号：US12437939

申请日：2009-05-08

Applicant: David J. Matteson ,  James P. Sutton ,  Rebecca L. Tobiasz ,  Martin J. Kozlak

Inventor： David J. Matteson ,  James P. Sutton ,  Rebecca L. Tobiasz ,  Martin J. Kozlak

IPC: B01D53/64 ,  B01D53/75 ,  F23J15/02

CPC classification number: B01D53/34 ,  B01D53/64 ,  B01D53/75 ,  B01D53/79 ,  B01D2257/302 ,  B01D2259/128 ,  F23J15/006 ,  F23J2215/20 ,  F23J2217/101 ,  F23J2219/40 ,  G05B13/021

Abstract: An integrated system [1000] is described for reducing operating costs of power plants while keeping gaseous pollutants in exhaust flue gasses, such as Mercury (Hg), below acceptable limits. Controller [1800] monitors and controls operation of a scrubber [1300], activator injection system [1400], sorbent injection system [1500] and a filter [1600]. Scrubber [1300] provides a neutralizer to remove SO2 emissions. Activator injection system [1400] provides and activator that increases affinity of the pollutant gasses for a sorbent. Sorbent injection system [1500] employs novel low friction injection lances [1590] that evenly distribute the sorbent particles. A filter [1600] collects the sorbent particles that cake onto filter bags [1620] that are periodically cleaned. A controller [1800] receives the costs of materials consumed and the filter bag life for the plant and performs an optimization of the multiple variables to minimize costs while keeping the pollutant emissions below a prescribed limit.

Abstract translation: 描述了一种综合系统[1000]，用于降低发电厂的运行成本，同时将排放烟气（如汞（Hg））中的气态污染物保持在可接受的极限以下。 控制器[1800]监测和控制洗涤器[1100]，活化剂注射系统[1400]，吸附剂注射系统[1500]和过滤器[1600]的操作。 洗涤器[1300]提供了一种去除二氧化硫排放的中和剂。 活化剂注射系统[1400]提供和激活剂，增加污染物气体对吸附剂的亲和力。 吸附剂注射系统[1500]采用新颖的低摩擦注射枪[1590]，均匀分布吸附剂颗粒。 过滤器[1600]收集被周期性清洁的过滤袋上的吸附剂颗粒[1620]。 控制器[1800]接收耗材的成本和工厂的过滤袋寿命，并对多个变量进行优化，以最大限度地降低成本，同时将污染物排放量降低到规定的限度以下。

公开(公告)号：US20100282140A1

公开(公告)日：2010-11-11

申请号：US12437939

申请日：2009-05-08

Applicant: David J. Matteson ,  James P. Sutton ,  Rebecca L. Tobiasz ,  Martin J. Kozlak

Inventor： David J. Matteson ,  James P. Sutton ,  Rebecca L. Tobiasz ,  Martin J. Kozlak

IPC: F23J15/02 ,  B05B1/00 ,  B05B12/00

CPC classification number: B01D53/34 ,  B01D53/64 ,  B01D53/75 ,  B01D53/79 ,  B01D2257/302 ,  B01D2259/128 ,  F23J15/006 ,  F23J2215/20 ,  F23J2217/101 ,  F23J2219/40 ,  G05B13/021

Abstract: An integrated system [1000] is described for reducing operating costs of power plants while keeping gaseous pollutants in exhaust flue gasses, such as Mercury (Hg), below acceptable limits. Controller [1800] monitors and controls operation of a scrubber [1300], activator injection system [1400], sorbent injection system [1500] and a filter [1600]. Scrubber [1300] provides a neutralizer to remove SO2 emissions. Activator injection system [1400] provides and activator that increases affinity of the pollutant gasses for a sorbent. Sorbent injection system [1500] employs novel low friction injection lances [1590] that evenly distribute the sorbent particles. A filter [1600] collects the sorbent particles that cake onto filter bags [1620] that are periodically cleaned. A controller [1800] receives the costs of materials consumed and the filter bag life for the plant and performs an optimization of the multiple variables to minimize costs while keeping the pollutant emissions below a prescribed limit.

Abstract translation: 描述了一种综合系统[1000]，用于降低发电厂的运行成本，同时将排放烟气（如汞（Hg））中的气态污染物保持在可接受的极限以下。 控制器[1800]监测和控制洗涤器[1100]，活化剂注射系统[1400]，吸附剂注射系统[1500]和过滤器[1600]的操作。 洗涤器[1300]提供了一种去除二氧化硫排放的中和剂。 活化剂注射系统[1400]提供和激活剂，增加污染物气体对吸附剂的亲和力。 吸附剂注射系统[1500]采用新颖的低摩擦注射枪[1590]，均匀分布吸附剂颗粒。 过滤器[1600]收集被周期性清洁的过滤袋上的吸附剂颗粒[1620]。 控制器[1800]接收耗材的成本和工厂的过滤袋寿命，并对多个变量进行优化，以最大限度地降低成本，同时保持污染物排放低于规定的限度。

公开(公告)号：US08955776B2

公开(公告)日：2015-02-17

申请号：US12713602

申请日：2010-02-26

Applicant: Daniel J. Adam ,  Paul M. Bovat, Jr. ,  Thomas J. Campanelli ,  Kevin J. Grzebien ,  James P. Sutton

Inventor： Daniel J. Adam ,  Paul M. Bovat, Jr. ,  Thomas J. Campanelli ,  Kevin J. Grzebien ,  James P. Sutton

IPC: B05B1/00 ,  F23D1/00

CPC classification number: B05B1/00 ,  B05B15/18 ,  F23D1/00 ,  F23D2201/10 ,  F23D2201/20 ,  F23D2201/30 ,  Y10T29/49826

Abstract: Disclosed herein is an apparatus and method of constructing a stationary wear-resistant stationary nozzle 200 and/or nozzle liner 230 for solid fueled furnaces. A transition section 210 is constructed from several flat pieces 211-218 several that may have identical starting shapes. This reduces manufacturing complexity and costs. All pieces 211-218 have a high-wear weld overlay on their inner surface 316, 416. Corner pieces 215-218 are folded into a corner shape at an outlet edge 412 and rolled into a curved shape at an inlet edge 411. Horizontal 211, 212 and vertical pieces 213, 214 are only rolled at an inlet edge 311. The pieces have seam tab 240 along longitudinal edges that are welded together to construct a transition section 210. The transition section 210 may be used as a liner to reduce wear in an existing stationary nozzle or may be constructed to be connected to an inlet piece 220 to form a strong, wear-resistant coal nozzle 200.

Abstract translation: 本文公开了一种用于固体燃料炉的固定耐磨固定喷嘴200和/或喷嘴衬套230的构造的装置和方法。 过渡部分210由几个可具有相同起始形状的平片211-218构成。 这降低了制造复杂性和成本。 所有片211-218在其内表面316,416上具有高磨损焊接覆盖层。角片215-218在出口边缘412处折叠成角形，并在入口边缘411处卷成弯曲形状。水平211 ，212和垂直件213,214仅在入口边缘311处滚动。这些件具有沿着纵向边缘的接缝突片240，其被焊接在一起以构造过渡部分210.过渡部分210可以用作衬垫以减少磨损 在现有的固定喷嘴中，或者可以构造成连接到入口件220以形成坚固耐磨的煤喷嘴200。