火焰特性研究及其检测技术
|
摘要
工业锅炉炉膛中存在两种火焰,一为炉体火焰,一为若干个喷火嘴喷出的火焰,工厂常常需要知道在炉体背景火焰下,喷嘴是否在喷火,以确定各个喷嘴的运行状态。工业上把火焰检测器将炉体火焰误判为喷嘴火焰的情况称为“偷看”;
把不能透过炉体火焰看到喷嘴火焰的情况称为“漏看”。检测器“偷看” 和“漏看”的频繁发生,会对锅炉的正常运行造成严重的影响。“偷看” 和“漏看”的实质是无法对重叠的火焰进行准确的判断,因此如何对重叠的火焰进行准确的判断成为解决此问题的关键。
本文详细介绍了火焰检测技术的原理、发展动态,总结了光电技术在火焰检测方面的应用。通过对几种光电检测电路的比较和分析,在试验测试的基础上,构建了一个性能较好的信号提取电路。采用电压编程精确滤波器对信号进行滤波,并以TMS320LF2407A DSP为核心,设计出一个进行光电转换、信号调理、数据采集的硬件平台。软件设计方面,采用汇编语言实现了系统控制、频谱分析和与上位机的通讯,同时在上位机中用VC++编程,实时显示了频谱数据的柱状图。在基于闪烁频率法检测火焰的原理上,提出了一种以快速傅立叶变换(FFT)分析火焰闪烁频谱,建立火焰重叠判据,从而判断火焰重叠与否的方法。为解决“偷看” “漏看” 提供了一种新方案。
此外,本文还对系统的深入设计和优化提出了建议。
There are two kind of flame in industry internally fired boiler. One is boiler-body flame the other is flame from burner nozzles. In order to judge the operation status of boiler, workers need to know whether the burner nozzle is burning or not under the background flame of boiler-body. In industry we define “peek” as phenomenon that the detector take the boiler-body flame as burner-nozzle’s flame .We define “leak” as phenomenon that the detector can not probe the burner-nozzle’s flame though boiler-body flame. These two phenomena will damage boiler if they happen too frequently. The essential of the phenomena is the detector cannot judge the overlapping status of flame. So how to judge the overlapping status of flame is the focus of the problem.
This thesis introduces the foundation and development of flame detection technology and summarizes the application of photoelectric technology in flame detection. Through comparing and analyzing of photoelectric detecting circuit, an efficient signal detecting circuit is established based on the data obtained from experimentation. A precision voltage programmable filter is used to deal with the signal. Using TMS320LF2407A DSP as controller, a hardware system for photoelectric transforming, signal dealing and sampling is designed. As for software design, it realizes the function of system controlling, frequency analyzing and communication with PC using assembly language. At the same time graph of real time data is displayed on PC using VC++ as programming tool. Based on the detection method of flame flicking frequency, a new method for judge the overlap status of two flames is proposed. The method use FFT (Fast Fourier transform) to analyze frequency spectrum of flame flicking frequency and build the flame overlapping criterion then compare the field data with the criterion to know whether the two flames overlap or not. This method is a new solution for “peek” and “leak” phenomena.
Furthermore advice for deep research and optimizing design is also presented.
把不能透过炉体火焰看到喷嘴火焰的情况称为“漏看”。检测器“偷看” 和“漏看”的频繁发生,会对锅炉的正常运行造成严重的影响。“偷看” 和“漏看”的实质是无法对重叠的火焰进行准确的判断,因此如何对重叠的火焰进行准确的判断成为解决此问题的关键。
本文详细介绍了火焰检测技术的原理、发展动态,总结了光电技术在火焰检测方面的应用。通过对几种光电检测电路的比较和分析,在试验测试的基础上,构建了一个性能较好的信号提取电路。采用电压编程精确滤波器对信号进行滤波,并以TMS320LF2407A DSP为核心,设计出一个进行光电转换、信号调理、数据采集的硬件平台。软件设计方面,采用汇编语言实现了系统控制、频谱分析和与上位机的通讯,同时在上位机中用VC++编程,实时显示了频谱数据的柱状图。在基于闪烁频率法检测火焰的原理上,提出了一种以快速傅立叶变换(FFT)分析火焰闪烁频谱,建立火焰重叠判据,从而判断火焰重叠与否的方法。为解决“偷看” “漏看” 提供了一种新方案。
此外,本文还对系统的深入设计和优化提出了建议。
There are two kind of flame in industry internally fired boiler. One is boiler-body flame the other is flame from burner nozzles. In order to judge the operation status of boiler, workers need to know whether the burner nozzle is burning or not under the background flame of boiler-body. In industry we define “peek” as phenomenon that the detector take the boiler-body flame as burner-nozzle’s flame .We define “leak” as phenomenon that the detector can not probe the burner-nozzle’s flame though boiler-body flame. These two phenomena will damage boiler if they happen too frequently. The essential of the phenomena is the detector cannot judge the overlapping status of flame. So how to judge the overlapping status of flame is the focus of the problem.
This thesis introduces the foundation and development of flame detection technology and summarizes the application of photoelectric technology in flame detection. Through comparing and analyzing of photoelectric detecting circuit, an efficient signal detecting circuit is established based on the data obtained from experimentation. A precision voltage programmable filter is used to deal with the signal. Using TMS320LF2407A DSP as controller, a hardware system for photoelectric transforming, signal dealing and sampling is designed. As for software design, it realizes the function of system controlling, frequency analyzing and communication with PC using assembly language. At the same time graph of real time data is displayed on PC using VC++ as programming tool. Based on the detection method of flame flicking frequency, a new method for judge the overlap status of two flames is proposed. The method use FFT (Fast Fourier transform) to analyze frequency spectrum of flame flicking frequency and build the flame overlapping criterion then compare the field data with the criterion to know whether the two flames overlap or not. This method is a new solution for “peek” and “leak” phenomena.
Furthermore advice for deep research and optimizing design is also presented.
引文
[1] 于赟,季诚昌,李建国,预混式燃气燃烧器的熄火保护装置的设计,工业加热, 2002,31(3):22~24
[2] 郑国强,电离式火焰检测器,江苏电力技术,1998,(4):22
[3] 翟成 、李玮 , 火焰检测原理及应用, 河北省科学院学报, 1999,16(1): 8~9,18
[4] (美)R.J.凯斯,光电探测器与红外探测器,北京:北京科学出版社,1984
[5] 孟力军,赵雨时,红外紫外双向火焰检测器,石油化工自动化, 2002,(5),85~86
[6] 陈尧生,党方义,大型锅炉火焰监测装置,工业仪表与自动化装置,1997,(6):46~48
[7] 李远生,红外线火焰检测装置原理及其应用,计算机测量与控制,2003,11(3):222~223,226
[8] 黄晓玲,紫外型火焰检测器的研制,仪器仪表学报,1999,20(5): 523~525,550
[9] 任丽军,纪铁军,童子权,智能火焰检测器的研究,哈尔滨理工大学学报,2002,7(4): 47~49,53
[10] 吴孚辉 ,ABB DFS新型火焰检测器及应用,华东电力,2002,30(7):50~52
[11] 宋文忠,姜昌金,胡克定,锅炉燃烧器火焰闪烁特性试验与分析,热力发电,1995,(4):45~50
[12] 林其周,沈志俊,嵩屿电厂UM型火焰检测系统的调试,福建电力与电工,1997,17(4): 17~19,26
[13] 作者不祥,CCD线性传感器,国外传感技术,2003,13(1):10~12
[14] 李国昌,常太华,李国光,基于数字图像处理的锅炉火焰评判算法,华北电力大学学报, 2002,29(2):59~62
[15] 何万青,张银桥,黄锏 等,基于DSP和数字视频技术的图像火焰检测系统, 热力发电,2000,33(10):64~67
[16] 陈南,智能建筑火灾监控系统设计,北京:清华大学出版社,2001
[17] 吴伟华,朱宝宇,丰城发电厂锅炉炉膛火焰检测改造工程,中国电力,2001,34(11):64~66
[18] 刘胜杰,锅炉灭火保护系统中的问题和看法,热力发电,1994,(2):45-48,35
[19] 安其霖,火焰检测器的光路设计,上海大学学报: 自科版,1997,3(6):640~644
[20] 张新伟,对锅炉火焰检测装置的探析,华东电力,2002,5:12~14
[21] 王立地,姚金环,IDD-2和FLAMON两种进口火焰检测器的比较,华北电力技术,2000,(5) :41~43
[22] 张睿,王立地,姚金环,进口火焰检测器的比较分析与发展动向,自动化仪表,2000,23(12):4~8
[23] 孙培懋、刘正飞,光电技术 ,北京:北京机械工业出版社,1992
[24] 江月松、阎平、刘振玉,光电技术与实验,北京:北京理工大学出版社,2000
[25] 徐淦卿,光电子学,南京:东南大学出版社,1990
[26] 叶嘉雄、常大定、陈汝钧,光电系统与信号处理,北京:科学出版社,1996
[27] 王清正、胡渝、林崇杰,光电探测技术,北京:电子工业出版社,1989
[28] (美)塞勒(Saleh,B.)著,韩家瑞、李庆绩译,光电子统计学及光谱与光通讯应用,北京 :科学出版社,1985
[29] 李科杰,新编传感器技术手册, 北京:国防工业出版社,2002
[30] 康华光等,电子技术基础 模拟部分,北京:高等教育出版社,1988
[31] 苏铁力,关振海,孙立红等,传感器及其接口技术,北京:中国石化出版社,2000
[32] 钱程德等,最新电子元器件产品大全 第二册 集成电路,北京:电子工业出版社,1996
[33] 赵负图,国内外最新常用传感器和敏感元器件性能数据手册,沈阳:辽宁科学技术出版社,1994
[34] 赵负图等,现代传感器集成电路 通用传感器电路 ,北京:人民邮电出版
社,2000
[35] MAXIM Low-Noise Precision Operational Amplifiers OP27/OP37 Datasheet,Maxim Integrated Products,1992
[36] (美)约翰逊(D.E. Johnson),(美)希尔伯恩(J.L. Hilburn)著 潘秋明译,有源滤波器的快速实用设计,北京:人民邮电出版社,1980
[37] (英)威廉斯(Williams.A.B),喻春轩译,电子滤波器设计手册,北京:电子工业出版社,1986
[38] (日)柳泽健、金光磐,有源滤波器的设计,北京:人民邮电出版社,1978
[39] 郑步生、吴渭,Multisim 2001 电路设计及仿真入门与应用,北京:电子工业出版社:2002
[40] MAXIM Pin programmable Universal and Bandpass Filters MAX263/MAX264 /MAX267/MAX268 Datasheet,Maxim Integrated Products,2000
[41] CD4020BC ? CD4040BC ? CD4060BC Datasheet, Fairchild Semiconductor Corporation , 1999
[42] 刘和平、严利平、张学锋等,TMS320LF240x DSP 结构原理及应用,北京航空航天大学出版社,2002
[43] TMS320F/C24x DSP Controllers Reference Guide CPU and Instruction Set, Texas Instruments,Literature Number: SPRU160C,1999
[44] TMS320LF/LC240xA DSP Controllers Reference Guide System and Peripherals, Texas Instruments, Literature Number:SPRU357B ,2001
[45] TMS320F/C240 DSP Controllers Reference Guide Peripheral Library and Specific Devices Literature ,Texas Instruments,Number: SPRU161C,1999
[46] MAXIM RS232 Communication Interface MAX3233E/AX3235E Datasheet,Maxim Integrated Products,2000
[47] Code Composer User's Guide, Texas Instruments, Literature Number: SPRU296A, 1999
[48] 张雄伟、曹铁勇,DSP芯片的原理与开发应用,北京:北京电子工业出版社,2001
[49] 苏涛、蔺丽华、卢光跃等,DSP实用技术,西安电子科技大学出版社,2002
[50] 刘和平、王维俊、江渝、邓力,TMS320LF240x DSP C语言开发应用,北京:航空航天大学出版社,2003
[51] TMS320C2x/C2xx/C5x Optimizing C Compiler User’s Guide, Texas Instruments,Literature Number: SPRU024E,1999
[52] (日)雨宫好文、左藤幸男,信号处理入门,北京:科学出版社,2000
[53] (日)臼井支郎,信号分析,北京:科学出版社,2002
[54] 吴大正、杨林耀、张永瑞,信号与线性系统分析,北京:高等教育出版社,2001
[55] Dave Figoli,Implementing a Spectrum Analyzer Using a 128-Point FFT and the TMS320F240 EVM,Texas Instruments, Applications Report: SPRA417A,1999
[56] 谭思亮、邹超群,Visual C++ 串口通信工程开发实例导航,北京:人民邮电出版社,2003
[57] David J. Kruglinski , Scot Wingo ,George Shepherd,Programming Visual C++ ,Beijing: Beijing Hope Electronic Press,2002
[58][美]Davis Chapman 著,骆长乐 译,学用VC++ 6.0,北京:清华大学出版社 2001
[59] 吴惠雁,朱登灜,燃煤电厂融合多信号光纤火焰检测器的开发研究,仪器仪表用户,2002,9(3):8~10
[60] 黄俊,姜昌金,相关检测中的若干问题,仪器仪表与分析监测, 1996(2):1~5,30
[61]Torkil Holm,Aspects of the mechanism of the flame ionization detector,Journal of Chromatography A, 842 (1999) 221–227
[62]T. FlieΒ, H.-J. Jentschel,K. Lenkheitb,A new synthesis method for signals for testing of flame-detection algorithms,Fire Safety Journal 37 (2002) 151–164
[63]Thuillard M. A new flame detector usingthe latest research on flames and fuzzy-wavelet algorithms.11th Proceedings of the AUBE'99, (1999)170–9.
[2] 郑国强,电离式火焰检测器,江苏电力技术,1998,(4):22
[3] 翟成 、李玮 , 火焰检测原理及应用, 河北省科学院学报, 1999,16(1): 8~9,18
[4] (美)R.J.凯斯,光电探测器与红外探测器,北京:北京科学出版社,1984
[5] 孟力军,赵雨时,红外紫外双向火焰检测器,石油化工自动化, 2002,(5),85~86
[6] 陈尧生,党方义,大型锅炉火焰监测装置,工业仪表与自动化装置,1997,(6):46~48
[7] 李远生,红外线火焰检测装置原理及其应用,计算机测量与控制,2003,11(3):222~223,226
[8] 黄晓玲,紫外型火焰检测器的研制,仪器仪表学报,1999,20(5): 523~525,550
[9] 任丽军,纪铁军,童子权,智能火焰检测器的研究,哈尔滨理工大学学报,2002,7(4): 47~49,53
[10] 吴孚辉 ,ABB DFS新型火焰检测器及应用,华东电力,2002,30(7):50~52
[11] 宋文忠,姜昌金,胡克定,锅炉燃烧器火焰闪烁特性试验与分析,热力发电,1995,(4):45~50
[12] 林其周,沈志俊,嵩屿电厂UM型火焰检测系统的调试,福建电力与电工,1997,17(4): 17~19,26
[13] 作者不祥,CCD线性传感器,国外传感技术,2003,13(1):10~12
[14] 李国昌,常太华,李国光,基于数字图像处理的锅炉火焰评判算法,华北电力大学学报, 2002,29(2):59~62
[15] 何万青,张银桥,黄锏 等,基于DSP和数字视频技术的图像火焰检测系统, 热力发电,2000,33(10):64~67
[16] 陈南,智能建筑火灾监控系统设计,北京:清华大学出版社,2001
[17] 吴伟华,朱宝宇,丰城发电厂锅炉炉膛火焰检测改造工程,中国电力,2001,34(11):64~66
[18] 刘胜杰,锅炉灭火保护系统中的问题和看法,热力发电,1994,(2):45-48,35
[19] 安其霖,火焰检测器的光路设计,上海大学学报: 自科版,1997,3(6):640~644
[20] 张新伟,对锅炉火焰检测装置的探析,华东电力,2002,5:12~14
[21] 王立地,姚金环,IDD-2和FLAMON两种进口火焰检测器的比较,华北电力技术,2000,(5) :41~43
[22] 张睿,王立地,姚金环,进口火焰检测器的比较分析与发展动向,自动化仪表,2000,23(12):4~8
[23] 孙培懋、刘正飞,光电技术 ,北京:北京机械工业出版社,1992
[24] 江月松、阎平、刘振玉,光电技术与实验,北京:北京理工大学出版社,2000
[25] 徐淦卿,光电子学,南京:东南大学出版社,1990
[26] 叶嘉雄、常大定、陈汝钧,光电系统与信号处理,北京:科学出版社,1996
[27] 王清正、胡渝、林崇杰,光电探测技术,北京:电子工业出版社,1989
[28] (美)塞勒(Saleh,B.)著,韩家瑞、李庆绩译,光电子统计学及光谱与光通讯应用,北京 :科学出版社,1985
[29] 李科杰,新编传感器技术手册, 北京:国防工业出版社,2002
[30] 康华光等,电子技术基础 模拟部分,北京:高等教育出版社,1988
[31] 苏铁力,关振海,孙立红等,传感器及其接口技术,北京:中国石化出版社,2000
[32] 钱程德等,最新电子元器件产品大全 第二册 集成电路,北京:电子工业出版社,1996
[33] 赵负图,国内外最新常用传感器和敏感元器件性能数据手册,沈阳:辽宁科学技术出版社,1994
[34] 赵负图等,现代传感器集成电路 通用传感器电路 ,北京:人民邮电出版
社,2000
[35] MAXIM Low-Noise Precision Operational Amplifiers OP27/OP37 Datasheet,Maxim Integrated Products,1992
[36] (美)约翰逊(D.E. Johnson),(美)希尔伯恩(J.L. Hilburn)著 潘秋明译,有源滤波器的快速实用设计,北京:人民邮电出版社,1980
[37] (英)威廉斯(Williams.A.B),喻春轩译,电子滤波器设计手册,北京:电子工业出版社,1986
[38] (日)柳泽健、金光磐,有源滤波器的设计,北京:人民邮电出版社,1978
[39] 郑步生、吴渭,Multisim 2001 电路设计及仿真入门与应用,北京:电子工业出版社:2002
[40] MAXIM Pin programmable Universal and Bandpass Filters MAX263/MAX264 /MAX267/MAX268 Datasheet,Maxim Integrated Products,2000
[41] CD4020BC ? CD4040BC ? CD4060BC Datasheet, Fairchild Semiconductor Corporation , 1999
[42] 刘和平、严利平、张学锋等,TMS320LF240x DSP 结构原理及应用,北京航空航天大学出版社,2002
[43] TMS320F/C24x DSP Controllers Reference Guide CPU and Instruction Set, Texas Instruments,Literature Number: SPRU160C,1999
[44] TMS320LF/LC240xA DSP Controllers Reference Guide System and Peripherals, Texas Instruments, Literature Number:SPRU357B ,2001
[45] TMS320F/C240 DSP Controllers Reference Guide Peripheral Library and Specific Devices Literature ,Texas Instruments,Number: SPRU161C,1999
[46] MAXIM RS232 Communication Interface MAX3233E/AX3235E Datasheet,Maxim Integrated Products,2000
[47] Code Composer User's Guide, Texas Instruments, Literature Number: SPRU296A, 1999
[48] 张雄伟、曹铁勇,DSP芯片的原理与开发应用,北京:北京电子工业出版社,2001
[49] 苏涛、蔺丽华、卢光跃等,DSP实用技术,西安电子科技大学出版社,2002
[50] 刘和平、王维俊、江渝、邓力,TMS320LF240x DSP C语言开发应用,北京:航空航天大学出版社,2003
[51] TMS320C2x/C2xx/C5x Optimizing C Compiler User’s Guide, Texas Instruments,Literature Number: SPRU024E,1999
[52] (日)雨宫好文、左藤幸男,信号处理入门,北京:科学出版社,2000
[53] (日)臼井支郎,信号分析,北京:科学出版社,2002
[54] 吴大正、杨林耀、张永瑞,信号与线性系统分析,北京:高等教育出版社,2001
[55] Dave Figoli,Implementing a Spectrum Analyzer Using a 128-Point FFT and the TMS320F240 EVM,Texas Instruments, Applications Report: SPRA417A,1999
[56] 谭思亮、邹超群,Visual C++ 串口通信工程开发实例导航,北京:人民邮电出版社,2003
[57] David J. Kruglinski , Scot Wingo ,George Shepherd,Programming Visual C++ ,Beijing: Beijing Hope Electronic Press,2002
[58][美]Davis Chapman 著,骆长乐 译,学用VC++ 6.0,北京:清华大学出版社 2001
[59] 吴惠雁,朱登灜,燃煤电厂融合多信号光纤火焰检测器的开发研究,仪器仪表用户,2002,9(3):8~10
[60] 黄俊,姜昌金,相关检测中的若干问题,仪器仪表与分析监测, 1996(2):1~5,30
[61]Torkil Holm,Aspects of the mechanism of the flame ionization detector,Journal of Chromatography A, 842 (1999) 221–227
[62]T. FlieΒ, H.-J. Jentschel,K. Lenkheitb,A new synthesis method for signals for testing of flame-detection algorithms,Fire Safety Journal 37 (2002) 151–164
[63]Thuillard M. A new flame detector usingthe latest research on flames and fuzzy-wavelet algorithms.11th Proceedings of the AUBE'99, (1999)170–9.