全自动自清洗过滤器过滤机理分析及控制系统研究
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摘要
随着水资源的匮乏和水污染的日益严重,废水的过滤与分离能很好的解决废水的处理与重复利用的问题,实现良好的经济效益和社会效益。但传统的过滤分离设备占地空间大,连续生产能力低,自动化程度不高,造成人力物力财力的巨大浪费。本文以自行开发的120m~3/h处理量全自动自清洗过滤器为基础,提出了全自动自清洗过滤器的各操作参数的设计思想和方法,并建立了过滤过程中过滤器的压降模型,借此确定控制系统的控制参数。其主要工作内容如下:
研制设计了一台处理量为120m~3/h、工作压力为0.6Mpa的全自动自清洗过滤器,并与杭州化工机械厂合作生产样机一台。在设计过程中,提出了过滤器的过滤元件、水力、筒体等关键部件设计方法。
以过滤的经典公式—达西定律作为计算基础,分别建立了全自动自清洗过滤器运行中在过滤介质和过滤所形成的滤饼处的压降模型,并对计算模型中的两个关键影响因素透过度K和孔隙度ε的产生机理进行了分析,总结了通用的计算方法,并适用于系列全自动自清洗过滤器之中。
在分析了过滤器自动控制任务、控制流程、控制方式、控制功能之后,根据对过滤压降模型的计算,选用适合的PLC控制手机,完成对过滤器启动、运行、自清洗、停机的控制系统设计,作出控制梯形图,编写控制语言。
本论文的主要创新点为:全自动自清洗过滤器区别于以往其他过滤设备在于它完全靠过滤的料液压力提供自清洗动力,在运行过程中无须停运以清洗过滤元件,整机体积较小,精度可调节,适合于各类工业生产。本文给出了这种过滤器的整体设计方法以及设计图纸,并对过滤器内部过滤机理进行分析,讨论了几个过滤参数,建立过滤器压降模型,并应用于过滤器控制系统设计之中。
As short of water resource and more and more serious situation of water pollution, filtration and separation have been the best way to settle the problem of reuse of waste water and realization of well economy benefit and social benefit. But there are several disadvantages in these traditional filters such as great volume discontinuous production lack of automation, great waste of manpower material resources , financial. Based on design of automatic self-cleaning filter on industrial scale (120 m3/h), the design and optimization procedures of several operation parameters are presented and pressure declined model of filter is obtained as well, then to calculate control parameters of control system. The main research contents are following as:
A filter on industrial scale (120 m3/h) and work pressure (0.6Mpa) has been designed and manufactured with the cooperation with Hangzhou Chemical Mechanical Factory. During the process of design, the procedures about some key assemblies such as filtrating component power of water canister have been shown.
Base on classical formula about filtration -Darcy, model of pressure declined produced by filtrating medium and solid particle during filtration is obtained. And mechanism of two key factors-permeate degree K and hole degree s is also analyzed. And they are all applied for series of auto control self-cleaning filter.
After analysis of control assignment control flow control mode control function and based on the calculation of pressure declined model, host computer -appropriate PLC has been selected. And then control system of filter startup run self-cleaning stop control echelon chart and program are all given.
The innovations of this paper can be concluded as following: knowing from other filtrate equipments ago, auto control self-cleaning filter drive itself to clean completely by its pressure of filtrated liquid and without stop. Volume of the filter is so little and precision can be modulated to fit for kinds of industry produce. In this paper, a suit of drawing and design procedures of such filter has been given. Mechanism during filtration in the filter has been studied and pressure declined models of filter are obtained.
研制设计了一台处理量为120m~3/h、工作压力为0.6Mpa的全自动自清洗过滤器,并与杭州化工机械厂合作生产样机一台。在设计过程中,提出了过滤器的过滤元件、水力、筒体等关键部件设计方法。
以过滤的经典公式—达西定律作为计算基础,分别建立了全自动自清洗过滤器运行中在过滤介质和过滤所形成的滤饼处的压降模型,并对计算模型中的两个关键影响因素透过度K和孔隙度ε的产生机理进行了分析,总结了通用的计算方法,并适用于系列全自动自清洗过滤器之中。
在分析了过滤器自动控制任务、控制流程、控制方式、控制功能之后,根据对过滤压降模型的计算,选用适合的PLC控制手机,完成对过滤器启动、运行、自清洗、停机的控制系统设计,作出控制梯形图,编写控制语言。
本论文的主要创新点为:全自动自清洗过滤器区别于以往其他过滤设备在于它完全靠过滤的料液压力提供自清洗动力,在运行过程中无须停运以清洗过滤元件,整机体积较小,精度可调节,适合于各类工业生产。本文给出了这种过滤器的整体设计方法以及设计图纸,并对过滤器内部过滤机理进行分析,讨论了几个过滤参数,建立过滤器压降模型,并应用于过滤器控制系统设计之中。
As short of water resource and more and more serious situation of water pollution, filtration and separation have been the best way to settle the problem of reuse of waste water and realization of well economy benefit and social benefit. But there are several disadvantages in these traditional filters such as great volume discontinuous production lack of automation, great waste of manpower material resources , financial. Based on design of automatic self-cleaning filter on industrial scale (120 m3/h), the design and optimization procedures of several operation parameters are presented and pressure declined model of filter is obtained as well, then to calculate control parameters of control system. The main research contents are following as:
A filter on industrial scale (120 m3/h) and work pressure (0.6Mpa) has been designed and manufactured with the cooperation with Hangzhou Chemical Mechanical Factory. During the process of design, the procedures about some key assemblies such as filtrating component power of water canister have been shown.
Base on classical formula about filtration -Darcy, model of pressure declined produced by filtrating medium and solid particle during filtration is obtained. And mechanism of two key factors-permeate degree K and hole degree s is also analyzed. And they are all applied for series of auto control self-cleaning filter.
After analysis of control assignment control flow control mode control function and based on the calculation of pressure declined model, host computer -appropriate PLC has been selected. And then control system of filter startup run self-cleaning stop control echelon chart and program are all given.
The innovations of this paper can be concluded as following: knowing from other filtrate equipments ago, auto control self-cleaning filter drive itself to clean completely by its pressure of filtrated liquid and without stop. Volume of the filter is so little and precision can be modulated to fit for kinds of industry produce. In this paper, a suit of drawing and design procedures of such filter has been given. Mechanism during filtration in the filter has been studied and pressure declined models of filter are obtained.
引文
[1] 过滤机.唐立夫,王维一,张怀清编.北京,机械工业出版社.1984.6
[2] 分离机械选型与使用手册.章棣.北京,机械工业出版社.1998.5
[3] 过滤理论与实践.克莱德.奥尔编.邵启祥.北京,国防工业出版社.1982
[4] 化工过程控制原理.黄聪明等编.北京,北京理工大学出版社.2000
[5] 过程控制仪表.曹润生,黄祯地,周泽魁编.浙江,浙江大学.1997.7
[6] 可编程控制器应用技术及实例.袁任光编著.广州,华南理工大学出版社.1997.6
[7] 可编程控制器原理及应用.宫淑贞等编.北京,人民邮电出版社.2002
[8] 可编程控制器基础及编程技巧.陈宇编.广州,华南理工大学出版社.1999.1
[9] 张晓光,郑荫林,姜春波.国内外自动清洗过滤器的发展及应用.丹东纺专学报.2002,9(1):28~29
[10] 周惠呈,丛安生.国内外自清洗过滤器的发展及应用.科技纵横.1997,12:32~33
[11] 梁金龙,章琪.国外过滤与分离机械发展概况.过滤与分离.2000,Vol.10 No.4:1~7
[12] 李明鑫.气压连续过滤及设备.过滤与分离.2001,V01.11 No.4:39~42
[13] 谭蔚,石建明,朱企新.国外过滤与分离技术的进展.化工机械.2002,第29卷,第4期:245~248
[14] 姚竞红.自动循环反冲式清水过滤器的应用.中国设备工程.2003(3):31~32
[15] 王道波.自清式水过滤器在冷却水系统中的应用.管件与设备.2002,第二期:21~22
[16] 张苏林,萧富焕,张德友,鲁智斌.全自动反冲洗过滤机地技术开发.过滤与分离.1997,第1期:33~34
[17] 董文楚.微灌用滤网过滤器设计原理与方法.中国农村水利水电.1996(12):15~19
[18] 王文基,于海水.自清洗过滤器.中国甜菜糖业.1995,5:27~28
[19] Anon.Self Cleaning Water Filter.Process Engineering(Sydney).1984,2(1):27~19
[20] H.P.Grace,A,I.Ch.E.J.,2,316(1956)
[21] F.M.Tiller,Ind.Eng.Chem.,53(7),529(1961)
[22] 方图南,潘元奇.过滤的基础理论与技术发展.化工设备与防腐蚀.2001 No3:2~8
[23] R.McGregor,J.Soc.Dyers Colour.,81,429(1965).
[24] C.N,Davies,Proc,Inst.Mech.Eng.,B,1,185(1952).
[25] Zhu Chao; Liu Guangliang; Cheung Chunshun, Parametric Modeling of a Fibrous Particulate Filter,Transactions of CSICE.1998,Vol.16 No.2:168~175.
[26] 付海明,沈恒根.纤维过滤器过滤理论的研究进展.中国粉体技术.2003,第9卷,第1期:41~46.
[27] Hsin-Chung Lu, Chuen-Jinn Tsai. A pilot-scale study of the design and operation parameters of a pulse-jet baghouse. Aerosol Science and Technology. 1998, (29):510~524.
[28] Kvetoslav R Spumy.Aerosol filtration science at the end of the 20th century. Chapter2. Advance in Aerosol Filtration. Boca Roton: Lewis Publishers, 1997.
[29] 摆军.深层过滤过程数学模型及其应用.石油机械.2000,第28卷:22~24.
[30] Ives K J. Deep bed filtration-theory and practice. Filt.& Sepa. 1980, March/April:25~26.
[31] 曲爱平.深层过滤理论基础研究.化学工程.1999,第27卷,第5期:30~33.
[32] 董文楚.微灌用砂过滤器水力能研究.喷灌技术.1996(1),7~14.
[33] 董文楚.微灌过滤用砂性能参数测定.喷灌技术.1995(2),42~44.
[34] 董文楚.滴灌用砂过滤器的过滤与反冲洗性能试验研究.水利学报.1997(12),72~77.
[35] Mints,D.M..Modern theory of filtration Int. Water Supply Ass.Conger.London.1966.
[36] Adin, A. and R,Rajagopalan.Breakthrough curves in granular media filtration.J.Envir. Eng.Div.Proc.ASCE.1981,11(5),4,785~797.
[37] 陈国年,李育清,梁柏华.一种免维护反冲洗过滤器及其控制系统.自动化与仪表.1999,3:10~12.
[38] Anon.Self Cleaning Water Filter.Process Engineering(Sydney).1984,2(1): 27~29.
[39] 张德友,陈道林,卓培忠.新型自动反冲洗过滤机的开发与应用.过滤与分离.2002,12(1):21~23.
[40] 康勇,罗茜,胡筱敏.过滤介质的研究进展.过滤与分离.1995(4):3~6.
[41] 于振威,杨欣等.含油污水双向过滤自动化系统的研究.电站系统工程,1997,第13卷,第1期:54~58.
[42] 王维一,董十力.国外过滤机的技术水平与发展趋势.世界机械工业.1996(6):2~5.
[43] 张德仁.先进的,超小型化CPM1A可编程序控制器及应用.1998(3):14~19.
[44] 于静辉,李清德,邢晓.自动反冲洗过滤器控制系统的改进.液压与气动.2002(12):44~45.
[45] 文美纯,刘吉普.可编程序控制器在过滤器上的应用研究.过滤与分离.2002(12):28~30.
[46] 唐毅谦,于铁利,张少中.可编程序控制器在板式过滤器中的应用.基础自动化.2000,第7卷,第1期:52~53.
[47] Jan Hermene. Auto-line Filter: Self-cleaning, Continuous Filtration System. Filter & Separation.2002(9):28~30.
[48] Thomas D,Penicot P,Contal P, et al.Clogging of fibrous filters by solid aerosol particles experimental and modeling study.Chem Eng Sci.2001,56:3549~3561.
[49] Piekaar H W,Clarenburg L A.Aerosol filters the tortuousity factors in fibrous filters. Chem Eng Sci.1967,22:1817~1827
[50] Clarenburg L A, Piekaar H W. Aerosol filters(Ⅰ): theor of pressure drop across single component glass fibre filters.Chem Eng Sci.1968,23:765~771.
[51] Clarenburg L A,Piekaar H W. Aerosol filters(Ⅱ): theor of pressure drop across single component glass fibre filters.Chem Eng Sci.1968,23:773~781.
[52] 摆军.深层过滤阻力模型及其计算机控制系统设计.过滤与分离.1998(4):8~12.
[53] 王学文,文联奎,曲爱平.深层过滤设备的进展.工业水处理.1993,Vol.13 No.5:
8~11.
[54] Jeanie L.Darby etc.Environ.Sci,Technol.1990, 24(7):1069.
[55] Jeanie L.Darby etc.Research Journal WPCF.1991,63(3): 228.
[56] 陈世治.自动反冲洗的糖浆连续过滤器—FILTOMAT.福建糖业.1993(1):5~8.
[57] 胡先念,熊云清,刘建华等.自动反冲洗过滤器的开发及在脱硫溶剂系统的应用.石油化工设备技术.2002,23(5):18~20.
[58] 褚永春.自清洗高效污水连续过滤新技术在本钢高炉上的应用.炼铁.1995,14(2):58~58.
[59] 翁晓姚,陈翼孙.过滤技术在污染控制中的应用.净水技术.1996(55):12~14.
[60] Nerad,F.现代化水过滤技术.中国食品工业.2000(7):47~47,49.
[2] 分离机械选型与使用手册.章棣.北京,机械工业出版社.1998.5
[3] 过滤理论与实践.克莱德.奥尔编.邵启祥.北京,国防工业出版社.1982
[4] 化工过程控制原理.黄聪明等编.北京,北京理工大学出版社.2000
[5] 过程控制仪表.曹润生,黄祯地,周泽魁编.浙江,浙江大学.1997.7
[6] 可编程控制器应用技术及实例.袁任光编著.广州,华南理工大学出版社.1997.6
[7] 可编程控制器原理及应用.宫淑贞等编.北京,人民邮电出版社.2002
[8] 可编程控制器基础及编程技巧.陈宇编.广州,华南理工大学出版社.1999.1
[9] 张晓光,郑荫林,姜春波.国内外自动清洗过滤器的发展及应用.丹东纺专学报.2002,9(1):28~29
[10] 周惠呈,丛安生.国内外自清洗过滤器的发展及应用.科技纵横.1997,12:32~33
[11] 梁金龙,章琪.国外过滤与分离机械发展概况.过滤与分离.2000,Vol.10 No.4:1~7
[12] 李明鑫.气压连续过滤及设备.过滤与分离.2001,V01.11 No.4:39~42
[13] 谭蔚,石建明,朱企新.国外过滤与分离技术的进展.化工机械.2002,第29卷,第4期:245~248
[14] 姚竞红.自动循环反冲式清水过滤器的应用.中国设备工程.2003(3):31~32
[15] 王道波.自清式水过滤器在冷却水系统中的应用.管件与设备.2002,第二期:21~22
[16] 张苏林,萧富焕,张德友,鲁智斌.全自动反冲洗过滤机地技术开发.过滤与分离.1997,第1期:33~34
[17] 董文楚.微灌用滤网过滤器设计原理与方法.中国农村水利水电.1996(12):15~19
[18] 王文基,于海水.自清洗过滤器.中国甜菜糖业.1995,5:27~28
[19] Anon.Self Cleaning Water Filter.Process Engineering(Sydney).1984,2(1):27~19
[20] H.P.Grace,A,I.Ch.E.J.,2,316(1956)
[21] F.M.Tiller,Ind.Eng.Chem.,53(7),529(1961)
[22] 方图南,潘元奇.过滤的基础理论与技术发展.化工设备与防腐蚀.2001 No3:2~8
[23] R.McGregor,J.Soc.Dyers Colour.,81,429(1965).
[24] C.N,Davies,Proc,Inst.Mech.Eng.,B,1,185(1952).
[25] Zhu Chao; Liu Guangliang; Cheung Chunshun, Parametric Modeling of a Fibrous Particulate Filter,Transactions of CSICE.1998,Vol.16 No.2:168~175.
[26] 付海明,沈恒根.纤维过滤器过滤理论的研究进展.中国粉体技术.2003,第9卷,第1期:41~46.
[27] Hsin-Chung Lu, Chuen-Jinn Tsai. A pilot-scale study of the design and operation parameters of a pulse-jet baghouse. Aerosol Science and Technology. 1998, (29):510~524.
[28] Kvetoslav R Spumy.Aerosol filtration science at the end of the 20th century. Chapter2. Advance in Aerosol Filtration. Boca Roton: Lewis Publishers, 1997.
[29] 摆军.深层过滤过程数学模型及其应用.石油机械.2000,第28卷:22~24.
[30] Ives K J. Deep bed filtration-theory and practice. Filt.& Sepa. 1980, March/April:25~26.
[31] 曲爱平.深层过滤理论基础研究.化学工程.1999,第27卷,第5期:30~33.
[32] 董文楚.微灌用砂过滤器水力能研究.喷灌技术.1996(1),7~14.
[33] 董文楚.微灌过滤用砂性能参数测定.喷灌技术.1995(2),42~44.
[34] 董文楚.滴灌用砂过滤器的过滤与反冲洗性能试验研究.水利学报.1997(12),72~77.
[35] Mints,D.M..Modern theory of filtration Int. Water Supply Ass.Conger.London.1966.
[36] Adin, A. and R,Rajagopalan.Breakthrough curves in granular media filtration.J.Envir. Eng.Div.Proc.ASCE.1981,11(5),4,785~797.
[37] 陈国年,李育清,梁柏华.一种免维护反冲洗过滤器及其控制系统.自动化与仪表.1999,3:10~12.
[38] Anon.Self Cleaning Water Filter.Process Engineering(Sydney).1984,2(1): 27~29.
[39] 张德友,陈道林,卓培忠.新型自动反冲洗过滤机的开发与应用.过滤与分离.2002,12(1):21~23.
[40] 康勇,罗茜,胡筱敏.过滤介质的研究进展.过滤与分离.1995(4):3~6.
[41] 于振威,杨欣等.含油污水双向过滤自动化系统的研究.电站系统工程,1997,第13卷,第1期:54~58.
[42] 王维一,董十力.国外过滤机的技术水平与发展趋势.世界机械工业.1996(6):2~5.
[43] 张德仁.先进的,超小型化CPM1A可编程序控制器及应用.1998(3):14~19.
[44] 于静辉,李清德,邢晓.自动反冲洗过滤器控制系统的改进.液压与气动.2002(12):44~45.
[45] 文美纯,刘吉普.可编程序控制器在过滤器上的应用研究.过滤与分离.2002(12):28~30.
[46] 唐毅谦,于铁利,张少中.可编程序控制器在板式过滤器中的应用.基础自动化.2000,第7卷,第1期:52~53.
[47] Jan Hermene. Auto-line Filter: Self-cleaning, Continuous Filtration System. Filter & Separation.2002(9):28~30.
[48] Thomas D,Penicot P,Contal P, et al.Clogging of fibrous filters by solid aerosol particles experimental and modeling study.Chem Eng Sci.2001,56:3549~3561.
[49] Piekaar H W,Clarenburg L A.Aerosol filters the tortuousity factors in fibrous filters. Chem Eng Sci.1967,22:1817~1827
[50] Clarenburg L A, Piekaar H W. Aerosol filters(Ⅰ): theor of pressure drop across single component glass fibre filters.Chem Eng Sci.1968,23:765~771.
[51] Clarenburg L A,Piekaar H W. Aerosol filters(Ⅱ): theor of pressure drop across single component glass fibre filters.Chem Eng Sci.1968,23:773~781.
[52] 摆军.深层过滤阻力模型及其计算机控制系统设计.过滤与分离.1998(4):8~12.
[53] 王学文,文联奎,曲爱平.深层过滤设备的进展.工业水处理.1993,Vol.13 No.5:
8~11.
[54] Jeanie L.Darby etc.Environ.Sci,Technol.1990, 24(7):1069.
[55] Jeanie L.Darby etc.Research Journal WPCF.1991,63(3): 228.
[56] 陈世治.自动反冲洗的糖浆连续过滤器—FILTOMAT.福建糖业.1993(1):5~8.
[57] 胡先念,熊云清,刘建华等.自动反冲洗过滤器的开发及在脱硫溶剂系统的应用.石油化工设备技术.2002,23(5):18~20.
[58] 褚永春.自清洗高效污水连续过滤新技术在本钢高炉上的应用.炼铁.1995,14(2):58~58.
[59] 翁晓姚,陈翼孙.过滤技术在污染控制中的应用.净水技术.1996(55):12~14.
[60] Nerad,F.现代化水过滤技术.中国食品工业.2000(7):47~47,49.