公开(公告)号：US08347827B2

公开(公告)日：2013-01-08

申请号：US12424570

申请日：2009-04-16

Applicant: Andrew Travaly ,  Jonathan Marmillo

Inventor： Andrew Travaly ,  Jonathan Marmillo

IPC: F22G1/02

CPC classification number: F22G5/16 ,  F22D1/34

Abstract: A system for generating steam for a turbine of an electric generator includes a superheater that receives steam from a boiler and that superheats the steam. All or a portion of the superheated steam from the superheater is then passed through a heat exchanger to transfer some of the heat energy in the superheated steam to a flow of water. This reduces a temperature of the superheated steam to a temperature that is suitable for the turbine. The water heated in the heat exchanger can be condensed water that has already passed through the turbine, and the water heated in the heat exchanger can be routed to the boiler, where it is re-cycled back into steam.

Abstract translation: 用于产生用于发电机的涡轮机的蒸汽的系统包括从锅炉接收蒸汽并使蒸汽过热的过热器。 然后将来自过热器的全部或一部分过热蒸汽通过热交换器以将过热蒸汽中的一些热能转移到水流中。 这将过热蒸汽的温度降低到适合于涡轮机的温度。 在热交换器中加热的水可以是已经通过涡轮机的冷凝水，并且在热交换器中加热的水可以被引导到锅炉，在那里它被重新循环回到蒸汽中。

公开(公告)号：US20100263607A1

公开(公告)日：2010-10-21

申请号：US12424570

申请日：2009-04-16

Applicant: Andrew TRAVALY ,  Jonathan Marmillo

Inventor： Andrew TRAVALY ,  Jonathan Marmillo

IPC: F22G5/00

CPC classification number: F22G5/16 ,  F22D1/34

Abstract: A system for generating steam for a turbine of an electric generator includes a superheater that receives steam from a boiler and that superheats the steam. All or a portion of the superheated steam from the superheater is then passed through a heat exchanger to transfer some of the heat energy in the superheated steam to a flow of water. This reduces a temperature of the superheated steam to a temperature that is suitable for the turbine. The water heated in the heat exchanger can be condensed water that has already passed through the turbine, and the water heated in the heat exchanger can be routed to the boiler, where it is re-cycled back into steam.

Abstract translation: 用于产生用于发电机的涡轮机的蒸汽的系统包括从锅炉接收蒸汽并使蒸汽过热的过热器。 然后将来自过热器的全部或一部分过热蒸汽通过热交换器以将过热蒸汽中的一些热能转移到水流中。 这将过热蒸汽的温度降低到适合于涡轮机的温度。 在热交换器中加热的水可以是已经通过涡轮机的冷凝水，并且在热交换器中加热的水可以被引导到锅炉，在那里它被重新循环回到蒸汽中。

公开(公告)号：US20050080620A1

公开(公告)日：2005-04-14

申请号：US10605582

申请日：2003-10-09

Applicant: Kotesh Rao ,  Michael House ,  Robert Roney ,  Andrew Travaly

Inventor： Kotesh Rao ,  Michael House ,  Robert Roney ,  Andrew Travaly

IPC: G10L21/00 ,  G10L21/02

CPC classification number: G10L21/0208

Abstract: In an information processing system having an equipment controller for enabling the digitization of complex work processes conducted during testing and/or operation of machinery and equipment, a local wireless communications network is implemented using at least one fixed point wireless communications access station and one or more voice-responsive wireless mobile computing/communications devices that are capable of accurate vocal command recognition in noisy industrial environments. The computing/communications device determines spectral characteristics of ambient non-speech background noises and provides active noise cancellation through the use of a directional microphone and an adaptive noise tracking and subtraction process. The device is carried by a user and is responsive to one or more vocal utterances of the user for communicating data to the information processing system and/or generating operational control commands to provide to the equipment controller for controlling the machinery or equipment.

Abstract translation: 在具有用于使机器和设备的测试和/或操作期间进行的复杂工作处理的数字化的设备控制器的信息处理系统中，使用至少一个固定点无线通信接入站和一个或多个 语音响应无线移动计算/通信设备，能够在嘈杂的工业环境中进行精确的声带命令识别。 计算/通信设备确定环境非语音背景噪声的频谱特性，并通过使用定向麦克风和自适应噪声跟踪和减法处理来提供主动噪声消除。 该设备由用户携带并且响应于用户的一个或多个声音来传送数据到信息处理系统和/或产生操作控制命令以提供给设备控制器来控制机器或设备。

公开(公告)号：US06794602B2

公开(公告)日：2004-09-21

申请号：US09981632

申请日：2001-10-18

Applicant: N. Kutty Nair ,  Andrew Travaly ,  Chris Kilburn ,  Todd J. Fischer ,  John F. Nolan

Inventor： N. Kutty Nair ,  Andrew Travaly ,  Chris Kilburn ,  Todd J. Fischer ,  John F. Nolan

IPC: B23K2600

CPC classification number: B23K26/03 ,  B08B7/0042 ,  B23K2101/001 ,  F01D25/002 ,  F05D2230/13

Abstract: A method and apparatus for cleaning a generator or turbine component using a laser ablation technique. The method includes programming a controller coupled to a laser source for controlling the laser source to perform laser ablation. A laser beam is directed at a generator or turbine component surface for vaporizing surface contaminants and coatings deposited on the generator or turbine component surface without changing material properties of said generator or turbine component. A computer system having a processor and a database is communicatively coupled to the controller. The database is loaded with turbine or generator component data and corresponding laser power related data for ablating surface contaminants and coatings from respective components. The apparatus also includes a detector disposed adjacent to the turbine or generator component to monitor ablation process and provide feedback data to the computer system, and a comparator for comparing the feedback data with predetermined data to determine progress of ablation. The laser source is controlled to produce a laser beam depending on the comparison step.

Abstract translation: 一种使用激光烧蚀技术清洁发电机或涡轮机部件的方法和装置。 该方法包括编程耦合到激光源的控制器，用于控制激光源进行激光烧蚀。 激光束被引导到发电机或涡轮机部件表面，用于蒸发沉积在发电机或涡轮机部件表面上的表面污染物和涂层，而不改变所述发电机或涡轮机部件的材料特性。 具有处理器和数据库的计算机系统通信地耦合到控制器。 数据库装有涡轮机或发电机组件数据和相应的激光功率相关数据，用于从相应的部件烧蚀表面污染物和涂层。 该装置还包括邻近涡轮机或发电机组件设置的检测器，以监测消融过程并向计算机系统提供反馈数据，以及用于将反馈数据与预定数据进行比较以确定消融进度的比较器。 根据比较步骤，激光源被控制以产生激光束。