高温粗锌液流量的在线检测及应用
|
摘要
在锌的精馏过程中,液态粗锌从熔化炉加入到铅塔这个过程的流量是一个关键的技术参数。粗锌液流量稳定与否,是影响精馏塔寿命以及锌产品产量和质量的最重要因素之一;同时,它对有价金属的回收率也将产生很大的影响。
本文以韶关冶炼厂粗锌液流量为研究对象,提出了一种基于软测量技术的高温粗锌液流量的检测方法——称重法。以粗锌液的重量作为辅助变量,根据流体力学理论建立了流量与重量之间的非线性数学模型。在此理论基础上,自行开发了基于模型的粗锌液流量智能检测仪。论文首先介绍了课题的基本情况、软测量技术及称重法建模。然后重点介绍了以89C52为核心的粗锌液流量检测仪的设计、主机、子机通信方案设计和差错控制方法。最后着重介绍了系统的一些可靠性技术和设计系统的一些经验。
本文的研究内容和结果主要体现在以下几个方面:
1、提出了基于软测量技术的粗锌液流量称重法建模方法。
2、详细地介绍了以89C52单片机为核心的锌液流检测仪的开发,介绍了流量模型的建立和修正策略。
3、主机应能很好地控制多台子机,关键技术在于通信接口的可靠性、通信协议的好坏以及差错控制方式。本文在主、子机RS-485通信和差错控制方面作了一些探讨。
4、结合实际情况,介绍了微机控制系统的一些抗干扰措施。
5、用VC++语言设计、开发监控软件,包括界面和数据库。
本系统设计方案合理、建模方法先进、可靠性高、人机界面友好、操作方便,具有广泛的工业应用。
During the course of rectifying zinc, the fluid of coarse liquid zinc put into Pb column from furnace works as a key technical parameter. Whether the fluid of coarse liquid zinc is steady or not is one of the most important factors that influence the life of distillation column and the output and quality of product. Meanwhile, it also much affects the recovery rate of valuable metals. In this paper, the fluid of coarse liquid zinc in Shaoguan Smeltery is investigated and a new soft sensor method-weighing method is proposed. We look upon the weight of coarse liquid zinc as Secondary variable and get the model between flow and weight based on hydrodynamic theory. Then we design an instrument to measure the fluid of coarse liquid zinc based on the mathematical model.
Firstly, we introduce the basic circs of the project, soft sensor method and the theory of weighing method. Then we mainly discuss the design of each of the meter which is based on 89C52 single-chip, the communication project and error control method. In the end, some experiences about the reliability technology in designing system are mainly presented. The main work and research results in this paper include the following:
1. We propose a soft sensor method -weighing method.
2.This paper detailedly discusses the design of the instrument which is used to measure the fluid of coarse liquid zinc based on 89C52 single-chip. We emphasize how to build the fluid of coarse liquid zinc mathematical model and how to modify the parameters.
3.Single host computer should be designed to successfully control several client single-chip. The key technology depends on the reliability of the communication interface, the property of the communication protocol and the error control method. We do some research in RS-485 communication and error controlling methods.
4. According to the practice, we present the anti-jamming measures and some experiences in designing system in details in this paper.
5.We design the supervision software of the host computer by VC++, including the interface and database
The system has advantages including reasonable scheme, advanced modeling method, convenience of realization, friendly man-machine interface and operating convenience. It is worthy of being popularized.
本文以韶关冶炼厂粗锌液流量为研究对象,提出了一种基于软测量技术的高温粗锌液流量的检测方法——称重法。以粗锌液的重量作为辅助变量,根据流体力学理论建立了流量与重量之间的非线性数学模型。在此理论基础上,自行开发了基于模型的粗锌液流量智能检测仪。论文首先介绍了课题的基本情况、软测量技术及称重法建模。然后重点介绍了以89C52为核心的粗锌液流量检测仪的设计、主机、子机通信方案设计和差错控制方法。最后着重介绍了系统的一些可靠性技术和设计系统的一些经验。
本文的研究内容和结果主要体现在以下几个方面:
1、提出了基于软测量技术的粗锌液流量称重法建模方法。
2、详细地介绍了以89C52单片机为核心的锌液流检测仪的开发,介绍了流量模型的建立和修正策略。
3、主机应能很好地控制多台子机,关键技术在于通信接口的可靠性、通信协议的好坏以及差错控制方式。本文在主、子机RS-485通信和差错控制方面作了一些探讨。
4、结合实际情况,介绍了微机控制系统的一些抗干扰措施。
5、用VC++语言设计、开发监控软件,包括界面和数据库。
本系统设计方案合理、建模方法先进、可靠性高、人机界面友好、操作方便,具有广泛的工业应用。
During the course of rectifying zinc, the fluid of coarse liquid zinc put into Pb column from furnace works as a key technical parameter. Whether the fluid of coarse liquid zinc is steady or not is one of the most important factors that influence the life of distillation column and the output and quality of product. Meanwhile, it also much affects the recovery rate of valuable metals. In this paper, the fluid of coarse liquid zinc in Shaoguan Smeltery is investigated and a new soft sensor method-weighing method is proposed. We look upon the weight of coarse liquid zinc as Secondary variable and get the model between flow and weight based on hydrodynamic theory. Then we design an instrument to measure the fluid of coarse liquid zinc based on the mathematical model.
Firstly, we introduce the basic circs of the project, soft sensor method and the theory of weighing method. Then we mainly discuss the design of each of the meter which is based on 89C52 single-chip, the communication project and error control method. In the end, some experiences about the reliability technology in designing system are mainly presented. The main work and research results in this paper include the following:
1. We propose a soft sensor method -weighing method.
2.This paper detailedly discusses the design of the instrument which is used to measure the fluid of coarse liquid zinc based on 89C52 single-chip. We emphasize how to build the fluid of coarse liquid zinc mathematical model and how to modify the parameters.
3.Single host computer should be designed to successfully control several client single-chip. The key technology depends on the reliability of the communication interface, the property of the communication protocol and the error control method. We do some research in RS-485 communication and error controlling methods.
4. According to the practice, we present the anti-jamming measures and some experiences in designing system in details in this paper.
5.We design the supervision software of the host computer by VC++, including the interface and database
The system has advantages including reasonable scheme, advanced modeling method, convenience of realization, friendly man-machine interface and operating convenience. It is worthy of being popularized.
引文
[1] 邵裕森.过程控制及仪表.上海:上海交通大学出版社,1994:76~77
[2] 丁元杰.单片微机原理及应用.北京:机械工业出版社,1999
[3] 李华.MCS-51系列单片机实用接口技术.北京:北京航空航天大学出版社,1993
[4] 徐武祥,曾祥镇.焊锡流量的在线检测.昆明理工大学学报,1997,22(4):56~58
[5] 王建军.多流中间包流动特性分析的全流量模型.炼钢,1998(5):27~30
[6] 朱仲英.微型计算机原理与应用.上海:上海交通大学出版社,1990
[7] 何立民.MCS-51系列单片机应用系统设计.北京:北京航空航天大学出版社,1990
[8] 孙强,桂卫华.一种高温流体流量在线检测的方法研究.计算技术与自动化,2001,20(4):10~13
[9] 夏沛章.误差分析与数据处理.长沙:国防工业出版社,1986:223~226
[10] 夏士智.测量系统设计与应用.北京:机械工业出版社,1994:1~2
[11] 陈粤初.单片机应用系统设计与实践.北京:北京航空航天大学出版社,1991
[12] 胡汉才.单片机原理及其接口技术.北京:清华大学出版社,1996
[13] 钟登华.回归分析中的变量变换及其应用.预测,1991,10(3):35~38
[14] LI Ker-chau Duan N. Regression Analysis under Link Violation. The Annals of Statistics, 1989, 17(3): 1009~1052
[15] MAXIM Welcome. MAXIM, 1999
[16] 邱公伟.实时控制与智能仪表多微机系统的通信技术.北京:清华大学出版社,1996
[17] 康华光.电子技术基础(模拟部分).北京:高等教育出版社,1990
[18] 于静江,周春辉.过程控制中的软测量技术.控制理论与应用,第13卷第2期,1996(4):137~142
[19] 张剑慈,董宜仁.填料塔孔口型液体分布器液体穿孔流量系数实验研究.化学工程,2000,28(3):10~13
[20] 张洪润.单片机应用技术教程.北京:清华大学出版社,1997
[21] 陈振林,许晔.基于多元线性回归分析的高精度温度测量.电子测量与仪器学报,2000,14(3):9~12
[22] 谢剑英.微型计算机控制技术.长沙:国防工业出版社,1990
[23] 应启夏,赵学端.流量检测及仪表.上海:上海交通大学出版社,1985
[24] Morari, M.and Alexander, K.W.Fung. Nonlinear Inferential Control Computers. Chem.Eng., 1982, 6(4): 271~281
[25] Parrish, J.R. and Brosilow, C.B. Nonlinear Inferential Control. AIChE J., 1988, 34(4): 633~644
[26] Xu Leietal. Rival Penalized Competitive Learning for Clustering Analysis. RBF Net, and Curve Detection. IEEE Transactions on Nerual Networks, 1993, 4(4): 635~649
[27] 陈宝江.MCS单片机应用系统实用指南.北京:机械工业出版社
[28] 王华.Visual C++6.0编程实例与技巧.北京:机械工业出版社,1999
[29] 施丹华,方秀琴.软测量预测延迟焦化粗汽油干点及收率.化工自动化及仪表,2001,28(5):51~53
[30] 邱竹贤.有色金属冶金学.北京:冶金工业出版社,1988:209
[31] 聂祥,张瑞林.最小二乘法在曲线拟合中的实现.陕西工学院学报,2000,16(3):79~82
[32] 韦博成.近代非线性回归分析.南京:东南大学出版社,1989:3~15
[33] 侯朝桢.分布式计算机控制系统.北京:北京理工大学出版社,1997
[34] 萨师煊,王珊.数据库系统概论.北京:高等教育出版社,2000
[35] 谈世哲.设计与制版—Protel98.北京:人民邮电出版社,1998
[36] 周亨达.工程流体力学.北京:冶金工业出版社,198l:1~77
[37] 金孚安.计算机控制系统中的数字滤波.微机发展,2000,(4):23~24
[38] Cox E. Adaptive Fuzzy System. IEEE Spectrum, 1993, 30(2): 27~31
[39] 罗霄华.计算机数据采集系统的信号调理实现方法.山西电子技术,2000,(2):21~23
[40] 陈宗海.过程系统建模与仿真.北京:中国科学技术大学出版社,1997:34~35
[41] 孙增圻.智能控制理论与技术.北京:清华大学出版社,1997:125~136
[42] 范金城.动态测量数据的抗扰性分析研究.数理统计与应用概率,1996,11(3):244~248
[43] 阎石.数字电子技术基础(第四版).北京:高等教育出版社,1997:475~484
[44] 张之超.Windows程序设计.北京:人民邮电出版社,1999:1~110
[45] 王常珍.冶金物理化学研究方法.北京:冶金工业出版社,1981:324~326
[46] 周复恭,黄运成.应用线性回归分析.北京:中国人民大学出版社,1987
[2] 丁元杰.单片微机原理及应用.北京:机械工业出版社,1999
[3] 李华.MCS-51系列单片机实用接口技术.北京:北京航空航天大学出版社,1993
[4] 徐武祥,曾祥镇.焊锡流量的在线检测.昆明理工大学学报,1997,22(4):56~58
[5] 王建军.多流中间包流动特性分析的全流量模型.炼钢,1998(5):27~30
[6] 朱仲英.微型计算机原理与应用.上海:上海交通大学出版社,1990
[7] 何立民.MCS-51系列单片机应用系统设计.北京:北京航空航天大学出版社,1990
[8] 孙强,桂卫华.一种高温流体流量在线检测的方法研究.计算技术与自动化,2001,20(4):10~13
[9] 夏沛章.误差分析与数据处理.长沙:国防工业出版社,1986:223~226
[10] 夏士智.测量系统设计与应用.北京:机械工业出版社,1994:1~2
[11] 陈粤初.单片机应用系统设计与实践.北京:北京航空航天大学出版社,1991
[12] 胡汉才.单片机原理及其接口技术.北京:清华大学出版社,1996
[13] 钟登华.回归分析中的变量变换及其应用.预测,1991,10(3):35~38
[14] LI Ker-chau Duan N. Regression Analysis under Link Violation. The Annals of Statistics, 1989, 17(3): 1009~1052
[15] MAXIM Welcome. MAXIM, 1999
[16] 邱公伟.实时控制与智能仪表多微机系统的通信技术.北京:清华大学出版社,1996
[17] 康华光.电子技术基础(模拟部分).北京:高等教育出版社,1990
[18] 于静江,周春辉.过程控制中的软测量技术.控制理论与应用,第13卷第2期,1996(4):137~142
[19] 张剑慈,董宜仁.填料塔孔口型液体分布器液体穿孔流量系数实验研究.化学工程,2000,28(3):10~13
[20] 张洪润.单片机应用技术教程.北京:清华大学出版社,1997
[21] 陈振林,许晔.基于多元线性回归分析的高精度温度测量.电子测量与仪器学报,2000,14(3):9~12
[22] 谢剑英.微型计算机控制技术.长沙:国防工业出版社,1990
[23] 应启夏,赵学端.流量检测及仪表.上海:上海交通大学出版社,1985
[24] Morari, M.and Alexander, K.W.Fung. Nonlinear Inferential Control Computers. Chem.Eng., 1982, 6(4): 271~281
[25] Parrish, J.R. and Brosilow, C.B. Nonlinear Inferential Control. AIChE J., 1988, 34(4): 633~644
[26] Xu Leietal. Rival Penalized Competitive Learning for Clustering Analysis. RBF Net, and Curve Detection. IEEE Transactions on Nerual Networks, 1993, 4(4): 635~649
[27] 陈宝江.MCS单片机应用系统实用指南.北京:机械工业出版社
[28] 王华.Visual C++6.0编程实例与技巧.北京:机械工业出版社,1999
[29] 施丹华,方秀琴.软测量预测延迟焦化粗汽油干点及收率.化工自动化及仪表,2001,28(5):51~53
[30] 邱竹贤.有色金属冶金学.北京:冶金工业出版社,1988:209
[31] 聂祥,张瑞林.最小二乘法在曲线拟合中的实现.陕西工学院学报,2000,16(3):79~82
[32] 韦博成.近代非线性回归分析.南京:东南大学出版社,1989:3~15
[33] 侯朝桢.分布式计算机控制系统.北京:北京理工大学出版社,1997
[34] 萨师煊,王珊.数据库系统概论.北京:高等教育出版社,2000
[35] 谈世哲.设计与制版—Protel98.北京:人民邮电出版社,1998
[36] 周亨达.工程流体力学.北京:冶金工业出版社,198l:1~77
[37] 金孚安.计算机控制系统中的数字滤波.微机发展,2000,(4):23~24
[38] Cox E. Adaptive Fuzzy System. IEEE Spectrum, 1993, 30(2): 27~31
[39] 罗霄华.计算机数据采集系统的信号调理实现方法.山西电子技术,2000,(2):21~23
[40] 陈宗海.过程系统建模与仿真.北京:中国科学技术大学出版社,1997:34~35
[41] 孙增圻.智能控制理论与技术.北京:清华大学出版社,1997:125~136
[42] 范金城.动态测量数据的抗扰性分析研究.数理统计与应用概率,1996,11(3):244~248
[43] 阎石.数字电子技术基础(第四版).北京:高等教育出版社,1997:475~484
[44] 张之超.Windows程序设计.北京:人民邮电出版社,1999:1~110
[45] 王常珍.冶金物理化学研究方法.北京:冶金工业出版社,1981:324~326
[46] 周复恭,黄运成.应用线性回归分析.北京:中国人民大学出版社,1987