公开(公告)号：US10508807B2

公开(公告)日：2019-12-17

申请号：US14268655

申请日：2014-05-02

Applicant: AIR PRODUCTS AND CHEMICALS, INC.

Inventor： Jeremy Glen Immer ,  Yan Zhao ,  Christopher Alan Ward ,  Reed Jacob Hendershot ,  Aleksandar Georgi Slavejkov ,  Thomas David Matthew Lee ,  Michael J. Gallagher

IPC: F23N5/24 ,  F23N5/26 ,  F23N5/00

Abstract: A remote burner monitoring system including one or more burners each including integrated sensors, a data collector corresponding to each of the burners for receiving and aggregating data from the sensors of the corresponding burner, and a local transmitter corresponding to each of the data collectors for transmitting the data, a data center configured and programmed to receive the data from the local transmitters corresponding to the one or more burners, and a server configured and programmed to store at least a portion of the data, to convert the data into a display format, and to provide connectivity to enable receipt and transmission of data and the display format via a network including at least one of a wired network, a cellular network, and a Wi-Fi network.

公开(公告)号：US10295184B2

公开(公告)日：2019-05-21

申请号：US15026309

申请日：2015-04-29

Applicant: Air Products and Chemicals, Inc.

Inventor： Christopher Michael Albright ,  Reed Jacob Hendershot ,  Michael J. Gallagher ,  Thomas David Matthew Lee ,  Aleksandar Georgi Slavejkov ,  Mark Daniel D'Agostini ,  Tunc Goruney

IPC: F23L7/00 ,  F23N1/02 ,  F23N5/24 ,  F23D14/32 ,  F23N5/02

Abstract: An oxy-fuel burner (10) with monitoring including a fuel passage (320) terminating in a fuel nozzle (322), a primary oxidant passage (330) terminating in an oxidant nozzle (333), one or more sensors including a nozzle temperature sensor (372) for sensing at least one of an oxidant nozzle temperature and a fuel nozzle temperature, and a data processor (66, 166,266) programmed to receive data from the sensors and to determine based on at least a portion of the received data the presence or absence of an abnormal burner condition including a potential partial obstruction of at least one of the primary oxidant passage (330) and the fuel passage (320) based on an increase or decrease in at least one of the oxidant nozzle temperature and the fuel nozzle temperature.

公开(公告)号：US20150316256A1

公开(公告)日：2015-11-05

申请号：US14268243

申请日：2014-05-02

Applicant: AIR PRODUCTS AND CHEMICALS, INC.

Inventor： Jeffrey D. Cole ,  Reed Jacob Hendershot ,  Jeremy Glen Immer ,  Thomas David Matthew Lee

IPC: F23D11/36 ,  F23L7/00 ,  F23D11/10

CPC classification number: F23D11/10 ,  F23D2208/10 ,  F23D2900/00006 ,  F23L7/007

Abstract: An oxy-oil burner with monitoring, including an oil lance having an oil nozzle at a tip end, and an oil inlet distal from the tip end; a primary oxidant passage surrounding the oil lance; an oil nozzle temperature sensor positioned in the oil nozzle at the tip end of the oil lance; an oil inlet temperature sensor positioned near the oil inlet; an oil pressure sensor positioned near the oil inlet passage; and an instrument enclosure for receiving data from the sensors; wherein the oil nozzle temperature, the oil supply temperature, and the oil supply pressure in combination are usable to indicate an abnormal burner condition.

Abstract translation: 一种具有监测功能的氧油燃烧器，包括在顶端具有油嘴的油枪和远离尖端的油入口; 围绕油枪的主要氧化剂通道; 油嘴温度传感器，位于油喷嘴的尖端处的油嘴中; 位于油入口附近的进油温度传感器; 位于所述进油通道附近的油压传感器; 以及用于从传感器接收数据的仪器外壳; 其中油喷嘴温度，供油温度和供油压力组合可用于表示异常燃烧器状况。

公开(公告)号：US20190219263A1

公开(公告)日：2019-07-18

申请号：US16365807

申请日：2019-03-27

Applicant: Air Products and Chemicals, Inc.

Inventor： Christopher Michael Albright ,  Reed Jacob Hendershot ,  Michael J. Gallagher ,  Thomas David Matthew Lee ,  Aleksandar Georgi Slavejkov ,  Mark Daniel D'Agostini ,  Tunc Goruney

IPC: F23N1/02 ,  F23N5/24 ,  F23N5/02 ,  F23L7/00 ,  F23D14/32

CPC classification number: F23N1/022 ,  F23D14/32 ,  F23L7/007 ,  F23N5/022 ,  F23N5/242 ,  F23N2025/16 ,  Y02E20/344

Abstract: An oxy-fuel burner with monitoring including a fuel passage terminating in a fuel nozzle, a primary oxidant passage terminating in an oxidant nozzle, one or more sensors including a nozzle temperature sensor for sensing at least one of an oxidant nozzle temperature and a fuel nozzle temperature and a position sensor for sensing a burner installation angle, and a data processor programmed to receive data from the sensors and to determine the presence or absence of an abnormal burner condition including a potential partial obstruction of at least one of the primary oxidant passage and the fuel passage based on an increase or decrease in at least one of the oxidant nozzle temperature and the fuel nozzle temperature, and to determine whether the burner is installed at a desired orientation with respect to at least one feature of the furnace based on the burner installation angle.