[1]牛 赟,刘贤德,王 强.基于雷达监测河川径流的测量及算法[J].山地学报,2014,(06):685.
 NIU Yun,LIU Xiande,WANG Qiang.Measurement and Arithmetic of River Runoff Based on Radar Monitoring[J].Mountain Research,2014,(06):685.
点击复制

基于雷达监测河川径流的测量及算法()
分享到:

《山地学报》[ISSN:1008-2186/CN:51-1516]

卷:
期数:
2014年06期
页码:
685
栏目:
山地研究
出版日期:
2014-08-01

文章信息/Info

Title:
Measurement and Arithmetic of River Runoff Based on Radar Monitoring
作者:
牛 赟刘贤德王 强
1. 甘肃省祁连山水源涵养林研究院 甘肃省森林生态与冻土水文水资源重点实验室,甘肃 张掖734000;
2. 甘州区水务局,甘肃 张掖734000;
3.甘肃农业大学,甘肃 兰州70070
Author(s):
NIU Yun LIU Xiande WANG Qiang
1.Academy of Water Resource Conservation Forests of Qilian Mountains in Gansu Province Gansu Province Key Laboratory of Forest Ecology and Frozensoil Hydrology and Water Resources,Zhangye 734000,Gansu,China;
2.Ganzhou Wateraffair Authority,Zhangye 734000,Gansu,China;
3.Gansu Agricultural University,Lanzhou 730070,Gansu,China
关键词:
雷达河川径流祁连山大野口流域
Keywords:
radar river runoff Dayekou basin of Qilian Mountains
分类号:
P343
文献标志码:
A
摘要:
祁连山大野口流域由于水流急、河面宽,修筑量水堰有一定的难度,准确监测河川径流成了流域水量平衡和涵养水源功能机理研究的障碍。通过大野口流域雷达测流处水面比降、河川横断面面积、水力半径、流速仪实测流量、糙率和谢才系数等一系列测量和计算,可得出雷达监测水位与相应的河川径流量的函数关系式,并绘制出水位流量图。结果表明:雷达测流处水面平均比降为0028;河川最大洪水断面宽134 m,高132 m;河川横断面糙率的平均值为0059;雷达监测水位与相应的河川径流量的函数关系式为Q=00018H2-00206H (R2=09994),该关系式可有效解决修筑量水堰较难而利用雷达监测河川径流的难题。通过研究,可为中等流域尺度上进一步揭示水源涵养功能机理及其流域产流机制提供参考和科学依据,是实现未来水资源可持续开发利用的基础工作,其对认知特定区域水文过程的演变规律,保障内陆河流域水资源合理开发,维持河西地区农业可持续发展具有重要意义。
Abstract:
There was difficult in constructing measuring weir in Dayekou basin of Qilian Mountains,Gansu,China because river was very big,and difficult in observation rivers runoff,which obstructed the development of research on function of water conservation in multiscale basin. In this article,through measuring and calculating water surface slope,cross section area,hydraulic radius,current meter measurement flow,roughness and chezy coefficient at radar monitoring in Dayekou basin of Qilian Mountains,and concluded that corresponding function relation between radar monitoring water level and volume of runoff,and mapped out of stagedischarge. The results showed that average water surface slope was 0.028.The largest section of rivers flood was 13.4 m wide and 1.32 m high. The roughness of rivers cross was 0.059 of average. The function relation between the level of radar monitoring water and the corresponding river runoff was that Q was 0.0018 H2-0.0206 H (R2 = 0.9994),and this formula could effectively solve the problem of river runoff by using of radar for monitoring that there was more difficult in construction measuring weir. The paper had provided the reference and the scientific basis for accurately monitoring and researching basin river runoff,and revealing the mechanism of the function of water conservation and watershed runoff mechanism . This research would be basic work for sustainable exploiting and utilizing water resources in future,and great significance on perceiving evolving law of hydrological processes in a particular area,and ensuring water resources rational development in the continental river basin,maintaining agricultural sustainable development in Hexi region.

相似文献/References:

[1]程根伟.贡嘎山极高山区的降水分布特征探讨[J].山地学报,1996,(03):177.
[2]李伟,程根伟,罗辑,等.贡嘎山东坡海螺沟的河川径流特征[J].山地学报,2004,(06):698.
[3]吕玉香,王根绪.贡嘎山东坡不同流域河川径流特征对比分析[J].山地学报,2008,(02):196.

备注/Memo

备注/Memo:
收稿日期(Received date):2013-11-25;修回日期(Accepted):2013-12-31。
基金项目(Foundation item):由国家科技支撑计划项目子课题《祁连山区水源涵养功能监测与增贮潜力评估》(2012BAC08B01)、甘肃省自然科学研究基金计划项目《祁连山气候梯度变化与植被垂直分布的响应关系》(1107RJZG268)、国家自然科学基金重大项目《祁连山区亚高山灌丛特征与生态水文过程的关系研究》(91125012)联合资助。
作者简介(Biography):牛赟 (1974-),男,甘肃通渭人,高级工程师,博士生,主要从事森林生态水文学方面的研究。\[Niu Yun (1974-),male,Gansu Tongwei person,senior engineer,doctor student,mainly engaged in research on forest ecological hydrology.\] E-mail:niuyun2028@163.com,Tel: 13649361345
更新日期/Last Update: 1900-01-01