公开(公告)号：US09689612B2

公开(公告)日：2017-06-27

申请号：US14721342

申请日：2015-05-26

Applicant: AIR PRODUCTS AND CHEMICALS, INC.

Inventor： Shailesh Pradeep Gangoli ,  J. Bruce Kenworthy ,  Russell James Hewertson ,  Anup Vasant Sane ,  Reed Jacob Hendershot ,  Xiaoyi He

IPC: F23C5/08 ,  F27B7/34 ,  F23L7/00 ,  F23N1/00 ,  F23N3/00 ,  F23N5/00 ,  F23N5/08 ,  F23N5/10 ,  F23N5/24 ,  F23C6/02 ,  F23G5/20 ,  F23D14/46 ,  F27B7/20 ,  F27B7/10 ,  F27B7/42 ,  F27D21/00 ,  F27D99/00 ,  F27D19/00

CPC classification number: F27B7/34 ,  F23C5/08 ,  F23C6/02 ,  F23C2201/20 ,  F23C2900/05081 ,  F23D14/46 ,  F23G5/20 ,  F23L7/007 ,  F23N1/002 ,  F23N3/002 ,  F23N5/003 ,  F23N5/08 ,  F23N5/10 ,  F23N5/24 ,  F23N5/242 ,  F27B7/10 ,  F27B7/20 ,  F27B7/42 ,  F27D21/0014 ,  F27D99/0033 ,  F27D2019/0006 ,  F27D2019/0021 ,  Y02E20/344

Abstract: A selective oxy-fuel burner for mounting in a charge door of a rotary furnace, including at least two burner elements each oriented to fire into different portions of the furnace, each burner element including a selective distribution nozzle configured to flow a first reactant; and a proportional distribution nozzle configured to flow a second reactant; at least one sensor to detect one or more process parameters related to furnace operation; and a controller programmed to independently control the first reactant flow to each selective distribution nozzle based on the detected process parameters such that at least one burner element is active and at least one burner element is passive; wherein the second reactant is substantially proportionally distributed to the proportional distribution nozzles; and wherein the first reactant is one of a fuel and an oxidant and wherein the second reactant is the other of a fuel and an oxidant.

公开(公告)号：US20240003539A1

公开(公告)日：2024-01-04

申请号：US17854782

申请日：2022-06-30

Applicant: Air Products and Chemicals, Inc.

Inventor： Anandkumar Makwana ,  Anup Vasant Sane ,  Michael David Buzinski ,  Xiaoyi He

IPC: F23D14/84 ,  F23D14/22 ,  F23D23/00 ,  F23L9/06 ,  F23N1/02

CPC classification number: F23D14/84 ,  F23D14/22 ,  F23D23/00 ,  F23L9/06 ,  F23N1/02

Abstract: A burner including a first burner element having a first annular oxidant nozzle surrounding a first inner fuel nozzle; a second burner element having a second annular oxidant nozzle surrounding a second inner fuel nozzle, the second burner element being positioned adjacent to and spaced apart from the first burner element; a staging nozzle configured to flow secondary oxidant and being positioned adjacent to and spaced apart from the second burner element and separated from the first burner element by the second burner element; wherein the first inner nozzle and the second inner nozzle each have a major axis defined by a length L and a minor axis defined by a height hf; wherein 5

公开(公告)号：US11598522B2

公开(公告)日：2023-03-07

申请号：US17066733

申请日：2020-10-09

Applicant: Air Products and Chemicals, Inc.

Inventor： Russell James Hewertson ,  Shailesh Pradeep Gangoli ,  J. Bruce Kenworthy ,  Xiaoyi He ,  Anup Vasant Sane

IPC: F23C5/08 ,  F23D99/00 ,  F23C6/04 ,  F23D23/00 ,  F27B7/34 ,  F27B7/20

Abstract: A method of melting a charge in a double-pass tilt rotary furnace having a door, including operating a first burner at a first firing rate, the first burner being mounted in a lower portion of the door and producing a first flame having a length; operating a second burner at a second firing rate, the second burner being mounted in an upper portion of the door and producing a second flame having a length, the second flame being distal from the charge relative to the first flame; in an initial phase when the solids in the charge impede the first flame, controlling the second firing rate to be greater than the first firing rate; and in an later phase after melting of the solids in the charge sufficiently that the first flame is not impeded, controlling the first firing rate to be greater than the second firing rate.

公开(公告)号：US20190218631A1

公开(公告)日：2019-07-18

申请号：US15873616

申请日：2018-01-17

Applicant: Air Products and Chemicals, Inc.

Inventor： Gregory J. Buragino ,  Shailesh Pradeep Gangoli ,  Anshu Gupta ,  Anup Vasant Sane ,  Avishek Guha ,  Xiaoyi He ,  Michael David Buzinski ,  Kyle J. Niemkiewicz ,  Russell James Hewertson

IPC: C21C5/48 ,  B22D1/00 ,  C21C5/34

Abstract: A method of operating a BOF bottom stir tuyere having an inner nozzle surrounded by an annular nozzle, including during a hot metal pour phase and a blow phase, flowing an inert gas through both nozzles; during a tap phase, initiating a flow of a first reactant through the inner nozzle and a flow of a second reactant through the annular nozzle, and ceasing the flow of inert gas through the nozzles, wherein the first and second reactants includes fuel and oxidant, respectively, or vice-versa, such that a flame forms as the fuel and oxidant exit the tuyere; during a slag splash phase, continuing the flows of fuel and oxidant to maintain the flame; and after ending the slag splash phase and commencement of another hot metal pour phase, initiating a flow of inert gas through both nozzles and ceasing the flows of the first and second reactants.

公开(公告)号：US20150267915A1

公开(公告)日：2015-09-24

申请号：US14636287

申请日：2015-03-03

Applicant: Air Products And Chemicals, Inc.

Inventor： Tunc Goruney ,  Xiaoyi He

IPC: F23D14/22 ,  F23D14/64 ,  F23D14/70 ,  F23D14/32

CPC classification number: F23D14/22 ,  F23D14/32 ,  F23D14/48 ,  F23D14/583 ,  F23D14/64 ,  F23D14/70 ,  Y02E20/344

Abstract: A flat flame oxy-fuel burner including a gaseous fuel nozzle having a hydraulic diameter Dh-NG and a width to height ratio w/a of at least 2; a primary oxidant conduit surrounding the fuel nozzle to form an annular primary oxidant nozzle between the fuel nozzle and the oxidant conduit, the oxidant conduit having a height b, the respective outlet ends of the fuel nozzle and the oxidant nozzle being aligned; and a precombustor extending from the outlet end of the fuel and oxidant nozzles and having a length L and a hydraulic diameter Dh; wherein the ratio L/Dh is non-zero and less than or equal to 4; wherein the ratio L/Dh-NG, is non-zero and less than or equal to 12; and wherein the dimensions a, b, and w are sized to yield a primary oxidant Reynolds number from 200 to 22,000 during burner is operation at 0.05 to 1 MMBtu/hr.

Abstract translation: 一种扁平火焰氧燃料燃烧器，其包括具有水力直径Dh-NG且宽/高比w / a至少为2的气体燃料喷嘴; 围绕燃料喷嘴以在燃料喷嘴和氧化剂导管之间形成环形主氧化剂喷嘴的主要氧化剂导管，氧化剂导管具有高度b，燃料喷嘴和氧化剂喷嘴的相应出口端对齐; 以及从燃料和氧化剂喷嘴的出口端延伸并且具有长度L和水力直径Dh的预燃烧器; 其中所述比率L / Dh为非零且小于或等于4; 其中所述比率L / Dh-NG为非零且小于或等于12; 并且其中尺寸a，b和w的尺寸设定成在燃烧器中以0.05至1Mmbtu / hr的速度操作时产生200至22,000的初级氧化剂雷诺数。

公开(公告)号：US20150247673A1

公开(公告)日：2015-09-03

申请号：US14193698

申请日：2014-02-28

Applicant: AIR PRODUCTS AND CHEMICALS, INC.

Inventor： Anup Vasant Sane ,  Shailesh Pradeep Gangoli ,  Aleksandar Georgi Slavejkov ,  Michael David Buzinski ,  Jeffrey D. Cole ,  Reed Jacob Hendershot ,  Xiaoyi He

IPC: F27D19/00 ,  F27D99/00

CPC classification number: F23D14/84 ,  B60B21/10 ,  B60B21/102 ,  B60B21/104 ,  B60B21/108 ,  B60B25/045 ,  B60B25/08 ,  B60B25/12 ,  B60B25/14 ,  B60B2320/10 ,  B60B2900/116 ,  B60B2900/521 ,  B60B2900/523 ,  B60B2900/541 ,  B60B2900/711 ,  B60B2900/721 ,  B60Y2200/14 ,  B60Y2200/20 ,  F23C5/08 ,  F23N1/02 ,  F27D19/00 ,  F27D99/0033 ,  F27D2019/004 ,  F27D2099/004

Abstract: A transient heating burner including at least two burner elements each having a distribution nozzle configured to flow a fuel, and an annular nozzle surrounding the distribution nozzle and configured to flow an first oxidant, at least one staging nozzle configured to flow a second oxidant, and a controller programmed to independently control the fuel flow to each distribution nozzle such that at least one of the distribution nozzles is active and at least one of the distribution nozzles is passive, wherein an active distribution nozzle fuel flow is greater than an average fuel flow to the distribution nozzles and a passive nozzle fuel flow is less than the average fuel flow, and to control a staging ratio to be less than or equal to about 75%.

Abstract translation: 一种瞬时加热燃烧器，其包括至少两个燃烧器元件，每个燃烧器元件具有配置成流动燃料的分配喷嘴，以及围绕分配喷嘴的环形喷嘴，并且构造成流过第一氧化剂，至少一个配置成流过第二氧化剂的分级喷嘴， 控制器，其被编程为独立地控制到每个分配喷嘴的燃料流，使得至少一个分配喷嘴是有源的，并且至少一个分配喷嘴是无源的，其中主动分配喷嘴燃料流量大于平均燃料流量 分配喷嘴和被动喷嘴燃料流量小于平均燃料流量，并且将分级比控制在小于或等于约75％。

公开(公告)号：US11060792B2

公开(公告)日：2021-07-13

申请号：US16352642

申请日：2019-03-13

Applicant: Air Products and Chemicals, Inc.

Inventor： Anup Vasant Sane ,  Gregory J. Buragino ,  Anandkumar Makwana ,  Michael David Buzinski ,  Xiaoyi He ,  Mark Daniel D'Agostini

IPC: F27B9/02 ,  F27B9/20 ,  F27D3/00 ,  F27B9/30 ,  F27B9/38

Abstract: A system for melting a pelleted charge material including a furnace having a feed end configured to receive a solid pelleted charge material and a discharge end opposite the feed end configured to discharge a molten charge material and a slag, a conveyor configured to feed the pelleted charge material into the feed end of the furnace, at least one oxy-fuel burner positioned to direct heat into a melting zone near the feed end to heat and at least partially melt the pelleted charge material to form the molten charge material and slag, wherein the oxy-fuel burner uses an oxidant having at least 70% molecular oxygen, and at least one flue for exhausting burner combustion products from the furnace.

公开(公告)号：US09976741B2

公开(公告)日：2018-05-22

申请号：US15148526

申请日：2016-05-06

Applicant: Air Products and Chemicals, Inc.

Inventor： Anup Vasant Sane ,  Shailesh Pradeep Gangoli ,  Aleksander Georgi Slavejkov ,  Michael David Buzinski ,  Jeffrey D. Cole ,  Reed Jacob Hendershot ,  Xiaoyi He

IPC: F27D19/00 ,  F23D14/84 ,  F23N1/02 ,  F23C5/08 ,  F27D99/00 ,  B60B21/10 ,  B60B25/04 ,  B60B25/08 ,  B60B25/12 ,  B60B25/14

CPC classification number: F23D14/84 ,  B60B21/10 ,  B60B21/102 ,  B60B21/104 ,  B60B21/108 ,  B60B25/045 ,  B60B25/08 ,  B60B25/12 ,  B60B25/14 ,  B60B2320/10 ,  B60B2900/116 ,  B60B2900/521 ,  B60B2900/523 ,  B60B2900/541 ,  B60B2900/711 ,  B60B2900/721 ,  B60Y2200/14 ,  B60Y2200/20 ,  F23C5/08 ,  F23N1/02 ,  F27D19/00 ,  F27D99/0033 ,  F27D2019/004 ,  F27D2099/004

Abstract: A transient heating burner including at least two burner elements each including a distribution nozzle configured to flow a first fluid and an annular nozzle surrounding the distribution nozzle and configured to flow a second fluid, the burner also including a controller programmed to independently control the flow of the first fluid to each distribution nozzle such that at least one of the distribution nozzles is active and at least one of the distribution nozzles is passive, wherein flow in an active distribution nozzle is greater than an average flow to the distribution nozzles and flow in a passive distribution nozzle is less than the average flow to the distribution nozzles, wherein the first fluid contains a reactant that is one of fuel and oxidant and the second fluid contains a reactant that is the other of fuel and oxidant.

公开(公告)号：US20160348970A1

公开(公告)日：2016-12-01

申请号：US14721342

申请日：2015-05-26

Applicant: AIR PRODUCTS AND CHEMICALS, INC.

Inventor： Shailesh Pradeep Gangoli ,  J. Bruce Kenworthy ,  Russell James Hewertson ,  Anup Vasant Sane ,  Reed Jacob Hendershot ,  Xiaoyi He

IPC: F27B7/34 ,  F27B7/20 ,  F23D14/46

CPC classification number: F27B7/34 ,  F23C5/08 ,  F23C6/02 ,  F23C2201/20 ,  F23C2900/05081 ,  F23D14/46 ,  F23G5/20 ,  F23L7/007 ,  F23N1/002 ,  F23N3/002 ,  F23N5/003 ,  F23N5/08 ,  F23N5/10 ,  F23N5/24 ,  F23N5/242 ,  F27B7/10 ,  F27B7/20 ,  F27B7/42 ,  F27D21/0014 ,  F27D99/0033 ,  F27D2019/0006 ,  F27D2019/0021 ,  Y02E20/344

Abstract: A selective oxy-fuel burner for mounting in a charge door of a rotary furnace, including at least two burner elements each oriented to fire into different portions of the furnace, each burner element including a selective distribution nozzle configured to flow a first reactant; and a proportional distribution nozzle configured to flow a second reactant; at least one sensor to detect one or more process parameters related to furnace operation; and a controller programmed to independently control the first reactant flow to each selective distribution nozzle based on the detected process parameters such that at least one burner element is active and at least one burner element is passive; wherein the second reactant is substantially proportionally distributed to the proportional distribution nozzles; and wherein the first reactant is one of a fuel and an oxidant and wherein the second reactant is the other of a fuel and an oxidant.

Abstract translation: 一种用于安装在旋转炉的充电门中的选择性氧 - 燃料燃烧器，其包括至少两个燃烧器元件，每个燃烧器元件各自定向以射入炉的不同部分，每个燃烧器元件包括构造成流过第一反应物的选择性分配喷嘴; 以及配置成流过第二反应物的比例分配喷嘴; 至少一个传感器，用于检测与炉操作有关的一个或多个工艺参数; 以及控制器，其被编程为基于检测到的过程参数独立地控制到每个选择性分配喷嘴的第一反应物流，使得至少一个燃烧器元件是有源的，并且至少一个燃烧器元件是被动的; 其中所述第二反应物基本成比例地分配到所述比例分配喷嘴; 并且其中所述第一反应物是燃料和氧化剂之一，并且其中所述第二反应物是燃料和氧化剂中的另一种。

公开(公告)号：US20160348904A1

公开(公告)日：2016-12-01

申请号：US14721297

申请日：2015-05-26

Applicant: AIR PRODUCTS AND CHEMICALS, INC.

Inventor： Shailesh Pradeep Gangoli ,  Russell James Hewertson ,  Anup Vasant Sane ,  John C. Palazzolo ,  Xiaoyi He

IPC: F23L7/00 ,  F23D14/32 ,  C21B9/14 ,  F27D17/00

CPC classification number: F23L7/007 ,  C21B9/14 ,  F23C5/08 ,  F23C2201/20 ,  F23C2900/05081 ,  F23C2900/06041 ,  F23D14/32 ,  F23D2900/00006 ,  F23N1/002 ,  F23N3/002 ,  F27B9/3044 ,  F27D17/004 ,  F27D99/0033 ,  F27D2017/007 ,  F27D2019/0003 ,  F27D2019/0031 ,  F27D2019/0034 ,  Y02E20/344

Abstract: An oxy-fuel boost burner for a regenerative furnace having a pair of regenerator ports configured to alternately fire into and exhaust from the furnace, including at least one burner element corresponding to each of the regenerator ports by being positioned to fire into a complimentary region of the furnace, each burner element including a selective distribution nozzle configured to flow a first reactant and a proportional distribution nozzle configured to flow a second reactant, and a controller programmed to identify which regenerator port is currently firing and which is currently exhausting and to independently control the first reactant flow to each selective distribution nozzle such that the at least one burner element corresponding to the currently firing regenerator port has a greater than average first reactant flow and the at least one burner element corresponding to the currently exhausting regenerator port as a less than average first reactant flow.

Abstract translation: 一种用于再生炉的氧 - 燃料增压燃烧器，其具有一对再生器端口，所述再生器端口被配置为交替地从炉中进入和排出，包括至少一个对应于每个再生器端口的燃烧器元件，其被定位成发射到 每个燃烧器元件包括配置成使第一反应物流动的选择性分配喷嘴和构造成流过第二反应物的比例分配喷嘴，以及被编程为识别哪个再生器端口正在燃烧并且当前正在耗尽并且独立地控制的控制器 所述第一反应物流动到每个选择性分配喷嘴，使得对应于当前燃烧再生器端口的至少一个燃烧器元件具有大于平均的第一反应物流，并且所述至少一个燃烧器元件对应于当前排气的再生器端口，小于 平均第一反应物流。