决策支持系统在脱硫特性评价中的应用
|
摘要
随着工业的不断发展,大气污染问题越来越严重,这以成为世界性问题,其中是主要的大气环境污染物之一。为了治理日益恶化的大气环境,采用炉内喷钙及尾部增湿活化烟气脱硫技术是一种最适合我国国情的烟气脱硫技术,因为其具有工艺流程简单,占地面积小,初始投资及运行成本低,维护技术难度小等优点。但是作为脱硫剂的钙基固硫剂石灰石,因其物理化学性质的差异,导致其脱硫性能有很大的不同。脱硫过程既涉及一些标准化程序化的过程,又随着脱硫的进一步实施包含很多不确定因素而决策支持系统主要用于解决半结构化和非结构化问题,因此迫切需要利用现代化的计算机辅助工具和通讯手段来支持脱硫评价工作,有必要建立相应的决策支持系统。在席卷全球的信息革命浪潮中,决策支持系统已成为各个技术领域计算机管理应用研究的热点和主要的发展方向。
本论文研究的正是决策支持系统在脱硫特性评价中的建设。具体地说是从DSS目前的相关理论出发,研究脱硫特性评价问题,将理论应用于实践,并从实践中深化理论知识。
论文在综述决策理论、决策支持系统理论、脱硫理论的基础上,分析了脱硫的工作流程,为其增加了多种综合评价方法,并设计了脱硫系统的数据流程图。然后对脱硫评价决策支持系统进行了总体设计,并分别从数据库、模型库、知识库、问题处理系统和人机交互系统五部分详细介绍了系统的设计和实现。
本系统采用了理想点法、排序法、虚拟目标法和功效系数法对脱硫特性进行综合评价,制定相应的综合评判标准,以便更好地辅助决策者进行决策。
在论文的最后,完全依据本论文的系统思路,我们尝试性地设计了一套应用于脱硫特性评价的决策支持系统,简化了优选石灰石的工作,加强了对石灰石脱硫机理的研究,提高了脱硫效果,在实际应用中可以支持和促进炉内喷钙尾部增湿活化脱硫技术的广泛应用
With developing of industry, problem on atmospheric pollution is more and more serious, which becomes a worldwide problem. is one of the most important atmospheric pollutants. To bring the deteriorating atmosphere under control and improve air quality, a desulfuration technology of Limestone Injection into the Furnace and Activation of Calcium is very suitable for China. It has the advantages of simple technics flow, small volume, relatively lower investment and operating cost, and easy maintenance technique. Whereas, the desulfuration performance of Calcium-based Sulphur-fixation Reagent limestone is affected by many factors such as physical factors and chemical factors. The process of desulfuration not only involves in not only standardized programs, but also includes uncertainty factors with further implementation of desulfuration. Moreover, decision support system mainly solves semi-structured and unstructured problems, so we urgently need make use of modern computer-aided tools and communication means to support evaluation work on desulfuration. It is necessary to establish a corresponding decision support system. In information revolution tide sweeping over the world, Decision Support System has become a hotspot or a primary development direction in every technology branch of computer management application study.
This thesis just studies the building of Decision Support System in evaluation on desulfuration feature. On the basis of present correlation theory of Decision Support System, it studies the problems of evaluation on desulfuration feature, applies theory to practice and deepens theory from practice.
This thesis analyses the workflow of desulfuration, adds multi-methods of comprehensive evaluation and designs data flow diagram of desulfuration system on the basis of surveying the theories of decision-making, Decision Support System and desulfuration. The design
and realization of system is introduced particularly from database, model base, knowledge base, Problem Processing Systems and Man-machine Interactive System.
The system evaluates comprehensively on desulfuration feature adopting ideal point means, Sorting, dummy aim and efficiency coefficient method, and establishes the standard of comprehensive evaluation in order to assist decision better.
In the end, we try to design a set of Decision Support System for evaluation on desulfuration feature on the basis of thinking of this thesis. The system can simplify the work of selecting limestone, enhance the mechanism study of limestone desulfuration, and improve the effect of desulfuration. At the same time, it can support and promote the desulfuration technology of Limestone Injection into the Furance and Activation of Calcium abroad appliance in practice
本论文研究的正是决策支持系统在脱硫特性评价中的建设。具体地说是从DSS目前的相关理论出发,研究脱硫特性评价问题,将理论应用于实践,并从实践中深化理论知识。
论文在综述决策理论、决策支持系统理论、脱硫理论的基础上,分析了脱硫的工作流程,为其增加了多种综合评价方法,并设计了脱硫系统的数据流程图。然后对脱硫评价决策支持系统进行了总体设计,并分别从数据库、模型库、知识库、问题处理系统和人机交互系统五部分详细介绍了系统的设计和实现。
本系统采用了理想点法、排序法、虚拟目标法和功效系数法对脱硫特性进行综合评价,制定相应的综合评判标准,以便更好地辅助决策者进行决策。
在论文的最后,完全依据本论文的系统思路,我们尝试性地设计了一套应用于脱硫特性评价的决策支持系统,简化了优选石灰石的工作,加强了对石灰石脱硫机理的研究,提高了脱硫效果,在实际应用中可以支持和促进炉内喷钙尾部增湿活化脱硫技术的广泛应用
With developing of industry, problem on atmospheric pollution is more and more serious, which becomes a worldwide problem. is one of the most important atmospheric pollutants. To bring the deteriorating atmosphere under control and improve air quality, a desulfuration technology of Limestone Injection into the Furnace and Activation of Calcium is very suitable for China. It has the advantages of simple technics flow, small volume, relatively lower investment and operating cost, and easy maintenance technique. Whereas, the desulfuration performance of Calcium-based Sulphur-fixation Reagent limestone is affected by many factors such as physical factors and chemical factors. The process of desulfuration not only involves in not only standardized programs, but also includes uncertainty factors with further implementation of desulfuration. Moreover, decision support system mainly solves semi-structured and unstructured problems, so we urgently need make use of modern computer-aided tools and communication means to support evaluation work on desulfuration. It is necessary to establish a corresponding decision support system. In information revolution tide sweeping over the world, Decision Support System has become a hotspot or a primary development direction in every technology branch of computer management application study.
This thesis just studies the building of Decision Support System in evaluation on desulfuration feature. On the basis of present correlation theory of Decision Support System, it studies the problems of evaluation on desulfuration feature, applies theory to practice and deepens theory from practice.
This thesis analyses the workflow of desulfuration, adds multi-methods of comprehensive evaluation and designs data flow diagram of desulfuration system on the basis of surveying the theories of decision-making, Decision Support System and desulfuration. The design
and realization of system is introduced particularly from database, model base, knowledge base, Problem Processing Systems and Man-machine Interactive System.
The system evaluates comprehensively on desulfuration feature adopting ideal point means, Sorting, dummy aim and efficiency coefficient method, and establishes the standard of comprehensive evaluation in order to assist decision better.
In the end, we try to design a set of Decision Support System for evaluation on desulfuration feature on the basis of thinking of this thesis. The system can simplify the work of selecting limestone, enhance the mechanism study of limestone desulfuration, and improve the effect of desulfuration. At the same time, it can support and promote the desulfuration technology of Limestone Injection into the Furance and Activation of Calcium abroad appliance in practice
引文
1 黄海量,武殿梁. 网络化决策支持体系中分布式动态决策建模系统的研究. 系统仿真学报,2002,14(4):426~429
2 Drucker P. The Coming of the New Organization. Harvard Business Review,1988,66(1):45~53
3 Rick Dove. The Meaning of life & The Meaning of Agile. Production Magazine. 1994:46~56
4 黄梯云.智能决策支持系统.北京:电子工业出版社,2001:1~3
5 电力工业部环保办公室. 火电厂脱硫技术资料汇编. 1997:2~9
6 张玲. 脱硫除尘行业:重在开发经济可靠的设备.科技日报,2001.12
7 陈晓东. 吸收剂喷射烟气脱硫技术与装备研究技术总报告,2000:1~23
8 雷海成. 火电厂烟气脱硫技术经济比较. 广西电力工程,1999
9 西北电力设计院. 国内火电烟气脱硫技术综述,1998:5
10 何清怀. 简述燃煤电厂脱硫技术设计的选择. 环境保护,1992:2
11 陈亚非. 几种烟气脱硫技术的模糊综合评判.浙江大学博士学位论文,1999
12 冯耕中,席酋民,汪应洛. 决策支持系统理论与实践. 陕西人民出版社,1995:12~30
13 孙占山, 方美琪,陈禹编著. 决策支持系统及其应用.南京大学出版社,1997:8~9
14 胡金柱. 模糊决策与决策支持系统 ,1998:93~94
15 高洪深. 决策支持系统(DSS)理论·方法·案例(第二版).北京:清华大学出版社,广西科学技术出版社,2000:9~56
16 陈文伟. 决策支持系统及其开发(第二版).北京:清华大学出版社,广西科学技术出版社,2000:6~34
17 刘锋.油田企业技术引进项目后评估决策支持系统研究.哈尔滨理工大学硕士论文,2000:3~5
18 Jie Wang and akira Tomita. Hydrothermal Reaction of Ca(OH)2 with Quartz in Connection with Coal Demineralization. Ind. Eng. Chem. Res. 1997(36): 1464~1469
19 李磊. 燃煤锅炉石灰石脱硫工程系统的研究.哈尔滨理工大学硕士论文,1997:3~5
20 朱跃,王雪梅. 石灰石脱硫特性试验研究. 1994年哈尔滨市科技攻关项目研究报告,1996:9~22
21 Newby W G. Sulfur oxide control. US Environmental Protection Agency, Report.1980, 60:320~325
Johnson I. Investigation of limestone sulphation enhancement agents.
22 FBCs. 1978: 231~310
23 张翠宝等. 石灰石固硫特性的评估准则. 北京:清华大学出版社,1993
24 哈尔滨电站设备成套设计研究所. 鞍山钢铁公司35t/h燃煤锅炉烟气脱硫技术改造可行性研究报告,1994
25 张明. 燃煤锅炉喷钙脱硫系统的优化方法研究. 哈尔滨理工大学硕士论文,2000:3~10
26 Gordon J S and Bishop J W. Development of a fluidized-bed boiler. A.I.Ch.E, 1972,68(126): 40~48
27 Fieldes R B, Burdett N A and Davidson J F. Reaction of Sulfur dioxide with limestone particles. Instn Chem. Engrs. 1979,57(10): 80~276
28 Swift W M, Montagna J C. Process costs and flow sheets. US Department of Energy. 1980,65(3): 35~38
29 Xuchang xu, Changhe Chen,Haiying Qi,efc.. Development of Coae combustion pollution Control for SO2 and NOx in China, Fuel Processing Techno logy. 2000 (62),153~160
30 Scher J M. Distributed decision support for management and organization. DSS-81 Tran, 1st Intl conf on DSS, 1981,130-140
31 Thomas R C, Burns A. The case for distributed decision making system. The Computer Journal.1992, 25(1): 148~152
32 Jarke M. Knowledge Shoring and Negotiation support in multiperson decision support systems. Decision Support Systems, 1996,2: 93~102
33 Swanson E B. Distributed Decision Support Systems. A perspective [A], Proc 23rd Annual Hawaii Intl Conf on system Sciences, 1999,3: 129~136
34 琚春华,凌云,T.J.Norman. 基于Agent软件合成的分布决策支持系统研究. 系统仿真学报,2002,14(5):626~630
35 郑章,程刚,张勇等. Visual C++6.0数据库开发技术. 软件开发技术丛书. 北京:机械工业出版社,2000:2~9
36 Eric A. Smith,Valor Whisler, Hank Marquis. Visual Basic 6 Bible. IDG Books Worldwide,Inc.,Foster City, California,USA. 1998:241~250
37 John W.Fronckowiak,David J.Helda. Visual Basic 6 Database Programming. IDG Books Worldwide, Inc.,Foster City, California,USA. 1998:7~17
38 袁帅等编著. Visual Basic 编程高手. 北京:北京希望电子工业出版社,2000:211~232
39 张 艳,王文学,张 谦,尹岩青等译. Visual C++ 6 宝典. 北京:电子工业出版社,1999 4~15
40 汪应洛. 系统工程理论、方法与应用.北京:高等教育出版社,1998:4~6
41 顾培亮. 系统分析与协调. 天津:天津大学出版社,1998
42 翟丽丽、李磊. 石灰石脱硫特性的评价系统. 1994年哈尔滨市科技攻关项目研究报告,1996:32~44
43 翟丽丽. 石灰石脱硫特性计算机辅助评价系统. 哈尔滨理工大学学报,1998,3(1):49~51
44 贾裕泉. 电力系统投资规划程序及其决策支持系统设计. 清华大学管理学硕士学位论文,2000:15~18
45 郭清顺. 决策支持系统模型库及其管理系统研究和实现. 哈尔滨工业大学硕士学位论文,1992:4
46 洪楠,侯军. SAS for Windows 统计分析系统教程. 北京:电子工业出版社,2001:260~277
47 高惠璇等译. SAS 系统 SAS/ETS 软件使用手册. 北京:中国统计出版社,1998:65~115
48 张文彤. 世界优秀统计工具SPSS 11.0 统计分析教程(高级篇). 北京: 北京希望电子出版社,2002
49 罗积玉,邢瑛. 经济统计分析方法及预测. 北京:清华大学出版社,1987:201~218
50 何晓群,刘文卿. 应用回归分析. 21世纪统计学系列教材. 中国人民大学出版社,2001:138~145
51 方开泰. 实用多元统计分析. 上海:华东师范大学出版社,1989:122~128
52 李子奈. 计量经济学-方法和应用. 北京:清华大学出版社,1992:115~142
53 张涛等译. 经济计量学精要(第2版). 北京:机械工业出版社,2000:127~144
54 项静恬,郭世琪. 多元回归模型在实际应用中的几种推广. 数理统计与管理,1994,13(3):48~53
55 H.Chang et al., Projection Pursuit Principal Component Analysis and its Application to Meteorology Acta, Meterorologica Sinica. 1999, Vol4(2):212~220
56 张翎. 用统计分析方法预测能源需求量. 数理统计与管理,2001,20(5):27~30
57 陈钰芬. 我国地区经济发展现状及其潜力分析. 数理统计与管理,2001,20(5):14~18
58 薄湘平,薛晶晶. 中国旅游业绩效评价. 吉林工业大学自然科学学报,2001,31(4):82~86
59 林锉云,董加礼.多目标优化的方法与理论.吉林教育出版社,1992:80~81
60 邱东. 多指标综合评价方法的系统分析,1991:234~238
61 金良超. 现代管理方法丛书. 正交设计与多指标分析. 1998:186~189
2 Drucker P. The Coming of the New Organization. Harvard Business Review,1988,66(1):45~53
3 Rick Dove. The Meaning of life & The Meaning of Agile. Production Magazine. 1994:46~56
4 黄梯云.智能决策支持系统.北京:电子工业出版社,2001:1~3
5 电力工业部环保办公室. 火电厂脱硫技术资料汇编. 1997:2~9
6 张玲. 脱硫除尘行业:重在开发经济可靠的设备.科技日报,2001.12
7 陈晓东. 吸收剂喷射烟气脱硫技术与装备研究技术总报告,2000:1~23
8 雷海成. 火电厂烟气脱硫技术经济比较. 广西电力工程,1999
9 西北电力设计院. 国内火电烟气脱硫技术综述,1998:5
10 何清怀. 简述燃煤电厂脱硫技术设计的选择. 环境保护,1992:2
11 陈亚非. 几种烟气脱硫技术的模糊综合评判.浙江大学博士学位论文,1999
12 冯耕中,席酋民,汪应洛. 决策支持系统理论与实践. 陕西人民出版社,1995:12~30
13 孙占山, 方美琪,陈禹编著. 决策支持系统及其应用.南京大学出版社,1997:8~9
14 胡金柱. 模糊决策与决策支持系统 ,1998:93~94
15 高洪深. 决策支持系统(DSS)理论·方法·案例(第二版).北京:清华大学出版社,广西科学技术出版社,2000:9~56
16 陈文伟. 决策支持系统及其开发(第二版).北京:清华大学出版社,广西科学技术出版社,2000:6~34
17 刘锋.油田企业技术引进项目后评估决策支持系统研究.哈尔滨理工大学硕士论文,2000:3~5
18 Jie Wang and akira Tomita. Hydrothermal Reaction of Ca(OH)2 with Quartz in Connection with Coal Demineralization. Ind. Eng. Chem. Res. 1997(36): 1464~1469
19 李磊. 燃煤锅炉石灰石脱硫工程系统的研究.哈尔滨理工大学硕士论文,1997:3~5
20 朱跃,王雪梅. 石灰石脱硫特性试验研究. 1994年哈尔滨市科技攻关项目研究报告,1996:9~22
21 Newby W G. Sulfur oxide control. US Environmental Protection Agency, Report.1980, 60:320~325
Johnson I. Investigation of limestone sulphation enhancement agents.
22 FBCs. 1978: 231~310
23 张翠宝等. 石灰石固硫特性的评估准则. 北京:清华大学出版社,1993
24 哈尔滨电站设备成套设计研究所. 鞍山钢铁公司35t/h燃煤锅炉烟气脱硫技术改造可行性研究报告,1994
25 张明. 燃煤锅炉喷钙脱硫系统的优化方法研究. 哈尔滨理工大学硕士论文,2000:3~10
26 Gordon J S and Bishop J W. Development of a fluidized-bed boiler. A.I.Ch.E, 1972,68(126): 40~48
27 Fieldes R B, Burdett N A and Davidson J F. Reaction of Sulfur dioxide with limestone particles. Instn Chem. Engrs. 1979,57(10): 80~276
28 Swift W M, Montagna J C. Process costs and flow sheets. US Department of Energy. 1980,65(3): 35~38
29 Xuchang xu, Changhe Chen,Haiying Qi,efc.. Development of Coae combustion pollution Control for SO2 and NOx in China, Fuel Processing Techno logy. 2000 (62),153~160
30 Scher J M. Distributed decision support for management and organization. DSS-81 Tran, 1st Intl conf on DSS, 1981,130-140
31 Thomas R C, Burns A. The case for distributed decision making system. The Computer Journal.1992, 25(1): 148~152
32 Jarke M. Knowledge Shoring and Negotiation support in multiperson decision support systems. Decision Support Systems, 1996,2: 93~102
33 Swanson E B. Distributed Decision Support Systems. A perspective [A], Proc 23rd Annual Hawaii Intl Conf on system Sciences, 1999,3: 129~136
34 琚春华,凌云,T.J.Norman. 基于Agent软件合成的分布决策支持系统研究. 系统仿真学报,2002,14(5):626~630
35 郑章,程刚,张勇等. Visual C++6.0数据库开发技术. 软件开发技术丛书. 北京:机械工业出版社,2000:2~9
36 Eric A. Smith,Valor Whisler, Hank Marquis. Visual Basic 6 Bible. IDG Books Worldwide,Inc.,Foster City, California,USA. 1998:241~250
37 John W.Fronckowiak,David J.Helda. Visual Basic 6 Database Programming. IDG Books Worldwide, Inc.,Foster City, California,USA. 1998:7~17
38 袁帅等编著. Visual Basic 编程高手. 北京:北京希望电子工业出版社,2000:211~232
39 张 艳,王文学,张 谦,尹岩青等译. Visual C++ 6 宝典. 北京:电子工业出版社,1999 4~15
40 汪应洛. 系统工程理论、方法与应用.北京:高等教育出版社,1998:4~6
41 顾培亮. 系统分析与协调. 天津:天津大学出版社,1998
42 翟丽丽、李磊. 石灰石脱硫特性的评价系统. 1994年哈尔滨市科技攻关项目研究报告,1996:32~44
43 翟丽丽. 石灰石脱硫特性计算机辅助评价系统. 哈尔滨理工大学学报,1998,3(1):49~51
44 贾裕泉. 电力系统投资规划程序及其决策支持系统设计. 清华大学管理学硕士学位论文,2000:15~18
45 郭清顺. 决策支持系统模型库及其管理系统研究和实现. 哈尔滨工业大学硕士学位论文,1992:4
46 洪楠,侯军. SAS for Windows 统计分析系统教程. 北京:电子工业出版社,2001:260~277
47 高惠璇等译. SAS 系统 SAS/ETS 软件使用手册. 北京:中国统计出版社,1998:65~115
48 张文彤. 世界优秀统计工具SPSS 11.0 统计分析教程(高级篇). 北京: 北京希望电子出版社,2002
49 罗积玉,邢瑛. 经济统计分析方法及预测. 北京:清华大学出版社,1987:201~218
50 何晓群,刘文卿. 应用回归分析. 21世纪统计学系列教材. 中国人民大学出版社,2001:138~145
51 方开泰. 实用多元统计分析. 上海:华东师范大学出版社,1989:122~128
52 李子奈. 计量经济学-方法和应用. 北京:清华大学出版社,1992:115~142
53 张涛等译. 经济计量学精要(第2版). 北京:机械工业出版社,2000:127~144
54 项静恬,郭世琪. 多元回归模型在实际应用中的几种推广. 数理统计与管理,1994,13(3):48~53
55 H.Chang et al., Projection Pursuit Principal Component Analysis and its Application to Meteorology Acta, Meterorologica Sinica. 1999, Vol4(2):212~220
56 张翎. 用统计分析方法预测能源需求量. 数理统计与管理,2001,20(5):27~30
57 陈钰芬. 我国地区经济发展现状及其潜力分析. 数理统计与管理,2001,20(5):14~18
58 薄湘平,薛晶晶. 中国旅游业绩效评价. 吉林工业大学自然科学学报,2001,31(4):82~86
59 林锉云,董加礼.多目标优化的方法与理论.吉林教育出版社,1992:80~81
60 邱东. 多指标综合评价方法的系统分析,1991:234~238
61 金良超. 现代管理方法丛书. 正交设计与多指标分析. 1998:186~189
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |