【作者】 刘洋；

【导师】 何政伟；

【作者基本信息】 成都理工大学 ， 地图学与地理信息系统， 2011， 硕士

【摘要】 我国西部拥有丰富的水电资源,但却因为复杂的地质条件影响了水电资源的外送,如何合理规划输电线路成为电力系统工程首要课题。本文以汶川地震灾区项目“绵阳—广元500kV线路π接进南坝线路工程”为研究对象,针对震后研究区工程地质条件和环境地质条件的巨大变化,利用遥感技术快速提取出地形地貌、地层岩性、地质构造、土地利用和不良地质条件等特征信息,辅以拟选区气候水文和社会经济条件,构建输电线路适宜性评价指标体系,通过GIS强大的空间分析功能,根据专家经验,采用模糊加权的形式对研究区线路适宜性进行评估,根据评估结果拟定了东、中、西共3条线路的初选方案。通过对3条方案的工程地质条件的比较,最终认为西线为最优方案,最后对西线线路走廊带进行了工程地质条件的分区并分别予以适宜性评价。文章主要取得了以下成果:(1)利用遥感手段获取数据鉴于研究区范围较大,且因地震对环境地质条件尤其是地貌条件造成的巨大变化,原有的图纸资料部分已经失去了价值。虽然可通过实地调研获取研究区信息,且具有可靠性,但往往需要大量的资金投入,并且需要较长的周期不具备时效性,进而延缓工程的进程。本文通过建立解译标志,对线路适宜性评估中所需信息进行了遥感获取,针对解译存在的疑点采取有目的的实地调研,在保证精确性的前提下提高了数据获取的效率。(2)初步建立了基于GIS的线路适宜性评估体系本文涉及的线路适宜性评估体系包括评估指标体系和评估方法模型两个部分。评估指标体系综合考虑了工程地质、环境地质、气侯水文、地质构造以及当地社会经济等诸多因素,包括8项指标数据,以此对研究区工程建设适宜性进行全面表达;鉴于研究区工作程度较低,数据资料不全,难以进行全定量的评估,因此本次咨询专家经验,以GIS为平台采用模糊加权的方式进行评估,评估结果表明该方法具有较强的操作性,可以成为线路选址评估工程的一项重要技术手段。(3)线路优选及分区评价在初步拟定的3条方案中,根据评价体系的二次评分,认为西线最具适宜性,因此线路优选是在西线方案的基础上进行的,对西线走廊带区域地形地貌、地质构造、地层岩性、土地利用和不良地质现象进行分析,确定线路最佳走向,并通过建立三维场景确定塔点的位置。根据不良地质现象和工程地质条件,确定大康-甘溪、甘溪-平通、平通-田坝、田坝-南坝4个分区,并分别予以不良地质现象适宜性条件评价和工程地质适宜性条件评价。更多还原

【Abstract】 There are rich hydropower resources in western China, but it is very difficult to be taken out because of the complicated geological conditions. How to design the transmission line legitimately becomes the primary subject of power system engineering. In this article, taking the Wenchuan earthquake reconstruction project which is called“500kV Mianyang-Guangyuan lineπconnected into Nanba line project”as the research object, according to the great changes of engineering geological conditions and environmental geological conditions in research area after the earthquake, using remote sensing technology quickly extracting the information of topography, lithology, geological structure, land using and bad geological conditions and other characteristics, supplemented by the meteorological hydrology and socio-economic conditions of the selected area, constructing the suitability evaluation system of power transmission line. According to experts’experiences, the form of fuzzy weighted semi-quantitatively is applied to evaluate the suitability of the research area through the powerful spatial analysis function of GIS. According to the assessment, three primary programs are prepared. They are east line, central line and west line. After the comparison of the engineering geological conditions of 3 lines, the west line comes to be the best solution. In the end, the west line is divided by the conditions of engineering geologic and evaluating suitability for each area. The article mainly achieved the following results:(1) Getting data by remote sensing.In view of the large research area, and the great changes of the environmental geology, especially landscape conditions on the ground of earthquake, the part of the original drawings have lost value. Although the information could be obtained through field research, which is reliability, usually it requires substantial investment and long time, which would delay the process of reconstruction. This article constructs to get the information for the assessment of the suitability of the line by remote sensing through the interpret signs. According to the suspicious interpret signs, taking the field research on purpose, the efficiency are improved under the premise of ensuring the accuracy of the data.(2) Establish the line suitability assessment system based on GIS preliminarily. In this article, the line suitability assessment system includes 2 parts: evaluation index system and evaluation method model. The evaluation index system is generally considered engineering geology, environmental geology, meteorological hydrology, geological structures and local socio-economic factors, including 8 indicator data. According to which gives a comprehensive introduction on the suitability of the construction program in the research area. Because of the low work lever of the research area and incomplete data, it is very difficult to evaluate quantitative comprehensively. Therefore, according to experts’experiences, the form of fuzzy weighted semi-quantitatively is utilized to evaluate with GIS platform. The result shows that the method is strongly operational; it could be considered as an important technical support in line location evaluation project.(3) Line selection and evaluation division.In the 3 initial line options, according to the secondary score of the evaluation system, the west line is the best in suitability so that the selection of the lines is based on the west line project. Through analyzing the topography, geological structure, lithology, land using and bad geological conditions, the best line alignment is finalized. The location of the tower point is determined with the establishment of three-dimensional scene. According to the engineering geological conditions, 4 districts which are Dakang-Ganxi, Ganxi-Pingtong, Pingtong-Tianba and Tianba-Nanba, are divided. The evaluation of bad geological phenomenon suitability and engineering geological suitability for each area are given.更多还原