水泥厂建设与生产过程中工程边坡防护模式评价
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摘要
随着社会的发展和现代化程度的提高,我国水泥的需求量在不断地增长,在水泥厂建设与生产过程中,工程边坡防护问题日益突出。工程边坡是否稳定受许多因素的影响,如何进行适宜防护是我们在水泥厂建设与生产过程中要考虑的重要问题。
目前国内外多对高速公路进行相关的边坡防护模式评价体系研究,但是这些体系对其他工程类型的边坡防护模式能否适用,目前还未有相关报道。
本文通过查阅文献资料、野外实地调查并结合层次分析法,建立评价体系,确定其目标层、因子层,对水泥厂建设与生产过程中工程边坡防护模式进行了评价与分析,得出应采取的最佳防护措施。
本文主要结论如下:
(1)在对水泥厂建设与生产过程中工程边坡进行防护前,应该对边坡做出适当分类,根据分类再采取相应的防护模式。对于土质陡坡而言,应该选择植物防护与工程防护相结合的综合防护方法;而对于急坡而言,无论其性质是土质还是岩质,均应考虑采用工程防护模式。
(2)水土保持边坡防护模式的确定,应基于对项目区地理位置、地形地貌、地质、气象、水文、土壤、植被等自然概况的充分调查和分析,从而进行科学地选择,以保证用最少的投入获得最大的生态、经济和社会效益。
(3)通过对水泥厂建设与生产过程中工程边坡防护模式建立评价指标体系,选取适宜评价指标,采用层次分析法对工程边坡防护模式进行分析、评价,评价结果与实际工程情况基本吻合,说明该方法具有一定的可行性,从而为同类项目工程边坡防护模式的选择提供了一种可参考的方法。
With the social development and the improvement in the level of modernization, the cement demand is continued growth in China. In the process of the cement production, the issue of engineering slope protection which affected by many factors is becoming increasingly prominent. How appropriate the protection to be, which is the most important issue to be considered in cement plant construction and production process.
At present, the domestic and foreign research mainly focus on highway associated slope protection system to evaluate, but whether these systems can be applied to other project types of slope protection, has no yet relevant reports.
Through reviewed the literature, the investigations in the field and using the analytic hierarchy process (AHP) to establish a system for assessment. With establishing goal level and factor level, the evaluation of engineering slope protection mode in cement plant construction and production process has been evaluated and analyzed, and get the best protective measures.
Main conclusions are as follows:
(1) The design for the evaluation of engineering slope protection mode in cement plant construction and production process should make the appropriate classification of slope. For soil and abrupt slopes, should choose the plants protective and engineering protection method combined comprehensive protection; for steep slopes, either soil or rocky, the engineering protective measures should be considered.
(2) The model of engineering slope protection should be fully investigated and analyzed the geographical location, topography, geology, meteorology, hydrology, soils, vegetation, and other natural description in the project area, based on the scientifically chosen to ensure that the least amount of inputs to obtain the greatest ecological, economic and social benefits.
(3) The evaluation of engineering slope protection mode in cement plant construction and production process was established, through selecting appropriate indicators, using AHP to analysis and evaluation the model which shows that, the results are consistent with the actual situation, means this method is feasible, and provides a reference for similar project.
目前国内外多对高速公路进行相关的边坡防护模式评价体系研究,但是这些体系对其他工程类型的边坡防护模式能否适用,目前还未有相关报道。
本文通过查阅文献资料、野外实地调查并结合层次分析法,建立评价体系,确定其目标层、因子层,对水泥厂建设与生产过程中工程边坡防护模式进行了评价与分析,得出应采取的最佳防护措施。
本文主要结论如下:
(1)在对水泥厂建设与生产过程中工程边坡进行防护前,应该对边坡做出适当分类,根据分类再采取相应的防护模式。对于土质陡坡而言,应该选择植物防护与工程防护相结合的综合防护方法;而对于急坡而言,无论其性质是土质还是岩质,均应考虑采用工程防护模式。
(2)水土保持边坡防护模式的确定,应基于对项目区地理位置、地形地貌、地质、气象、水文、土壤、植被等自然概况的充分调查和分析,从而进行科学地选择,以保证用最少的投入获得最大的生态、经济和社会效益。
(3)通过对水泥厂建设与生产过程中工程边坡防护模式建立评价指标体系,选取适宜评价指标,采用层次分析法对工程边坡防护模式进行分析、评价,评价结果与实际工程情况基本吻合,说明该方法具有一定的可行性,从而为同类项目工程边坡防护模式的选择提供了一种可参考的方法。
With the social development and the improvement in the level of modernization, the cement demand is continued growth in China. In the process of the cement production, the issue of engineering slope protection which affected by many factors is becoming increasingly prominent. How appropriate the protection to be, which is the most important issue to be considered in cement plant construction and production process.
At present, the domestic and foreign research mainly focus on highway associated slope protection system to evaluate, but whether these systems can be applied to other project types of slope protection, has no yet relevant reports.
Through reviewed the literature, the investigations in the field and using the analytic hierarchy process (AHP) to establish a system for assessment. With establishing goal level and factor level, the evaluation of engineering slope protection mode in cement plant construction and production process has been evaluated and analyzed, and get the best protective measures.
Main conclusions are as follows:
(1) The design for the evaluation of engineering slope protection mode in cement plant construction and production process should make the appropriate classification of slope. For soil and abrupt slopes, should choose the plants protective and engineering protection method combined comprehensive protection; for steep slopes, either soil or rocky, the engineering protective measures should be considered.
(2) The model of engineering slope protection should be fully investigated and analyzed the geographical location, topography, geology, meteorology, hydrology, soils, vegetation, and other natural description in the project area, based on the scientifically chosen to ensure that the least amount of inputs to obtain the greatest ecological, economic and social benefits.
(3) The evaluation of engineering slope protection mode in cement plant construction and production process was established, through selecting appropriate indicators, using AHP to analysis and evaluation the model which shows that, the results are consistent with the actual situation, means this method is feasible, and provides a reference for similar project.
引文
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2.陈向波.高速公路边坡生态防护技术及其应用研究.[硕士学位论文].武汉:武汉理工大学,2005
3.杜娟.客土喷播法在日本的应用与发展.公路,2000,(7):72-73
4.段宝彬.综合评价的模糊数学方法研究.[硕士学位论文].南京:河海大学,2005
5.方华,林建平.植被护坡现状与展望.水土保持研究,2004,11(3):283-285
6.付红豆.公路水土保持评价技术与方法研究.[硕士学位论文].西安:长安大学,2009
7.巩大力.陕西省公路边坡防护研究.[博士学位论文].西安:长安大学,2002
8.巩延明.浅谈公路生态建设的意义及重点.中国科技信息,2005,15:140
9.郭静.开发建设项目水土保持监测与评价研究——以华电潍坊发电有限公司二期工程建设为例.[硕士学位论文].泰安:山东农业大学,2008
10.国家技术监督局.水土保持综合治理效益计算方法[S].1996
11.韩巍,吕凤良,苏芳莉.水泥厂开发建设工程水土保持方案编制中的设计要点.农业科技与装备,2008,(2):58-59
12.湖北省水利水电勘测设计院.华新水泥股份有限公司咸宁二期4000t/d熟料水泥生产线建设工程水土保持方案报告书(报批稿),2008,武汉
13.湖北省水利水电勘测设计院.华新水泥(武穴)有限公司4800t/d熟料水泥生产线三期工程水土保持方案报告书(报批稿),2008,武汉
14.焦树锋.AHP法中平均随机一致性指标的算法及MATLAB实现.太原师范学院学报(自然科学版),2006,5(4):45-47
15.李东升,陆秀君,梁俊波,等.沈抚高速公路路堑段边坡生态防护措施及效果评价.北方园艺,2010,(11):131-133
16.李恒森译.日本公路绿化技术展望.山东交通科技,1997,(2):89-90
17.李洪兴,汪培庄.模糊数学.国防工业出版社,1994
18.李季阳,水泥行业现状及发展策略,http://www.ccafm.com.cn/neikanl1/ xianzhuang.htm
19.李金昌.黄土地区高等级公路边坡绿化.山西科技,2003,(2):49-50
20.李静雅.高等级公路边坡防护方法及经济意义.广东交通职业科技学院学报,2003,(1):17-19
21.李绍才,孙海龙.中国岩石边坡植被护坡技术现状及发展趋势.资源科学,2004,26:61-66
22.李士勇.工程模糊数学及应用.哈尔滨工业大学出版社,2004
23.李颖.高速公路社会效益评价指标体系分析探讨.辽宁交通科技,2005,9:72-74
24.刘霁,陈建宏,李云,周智勇.基于主客观赋权法的山区高速公路边坡防护决策与生态环境.中南大学学报(自然科学版),2009,40(4):1059-1065
25.刘世奇,陈静曦,工吉利.植物护坡技术浅析.土工基础,2003,17(3):49-51
26.柳治国,刘世奇.边坡综合防护技术研究.公路工程,2008,33(4):20-24
27.芦建国,于冬梅.高速公路边坡生态防护研究综述.中外公路,2008,28(5):29-32
28.栾传宝.内蒙古包头至磴口段高速公路自然灾害边坡防护模式评价.[硕士学位论文].长沙:长沙理工大学,2007
29.彭冬水.开发建设项目水土保持管理指标体系研究—塔景高速公路水土保持工程研究.[硕士学位论文].南昌:南昌大学,2007
30.钱家欢,殷宗泽.土工原理与计算.中国水利水电出版社.1996,452-453
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