2012, Volume 14, Issue 11
Strategic Study of CAE >> 2012, Volume 14, Issue 11
System identification of channel roughness for middle route project of south to north water diversion
1. China Institute of Water Resources and Hydropower Research, State Key Laboratory of Simulation and Regulation of Water Cyde in River Basin, Beijing 100038, China;
2. Expert Committees, Construction Committee of South-to-North Water Diversion of State Council, Beijing 100053, China
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Abstract
This paper presents a new method for the system identification of channel roughness for the water diversion projects. According to the principle of hydraulics, established the relationship among channel roughness, rough height ks and hydraulic radius R, and deduce the linear model by means of the mathematical transformation to make use of the least square method for the identification. Finally, based on the prototype observation data from the south to north water diversion project and considering the influence of channel section shapes, bottom slopes and lengths etc, a universal formula is obtained for calculation of channel roughness by the system identification.
Keywords
channel ; roughness ; system identification ; least square method
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References
[ 1 ] Becker L. Yeh w W G. Identific ation of para meters in unstea dy open channel flows[J]. Water R esources Research, 1972, 8 (4):956 -965 link1
[ 2 ] Chiu CL, Emmanuel 0 I. Kalman filtering in open channel fow estimation[J]. Joumal of the Hydraulics Division, 1978, 104(8): 1137-1151. link1
[ 3 ] Wormleaton PR, Kamegam M. Pa ra meter optimization in flood routing[J]. Journal of Hydraulic Engineering, 1983, 110 (12):1799-1814. link1
[ 4 ] Crissman R D, Chiu C L. Uncetainties in fow modeling and fore-casting for Niagara River[J]. Journal of Hydraulic Engineering,1993, 119(11): 1231-1250. link1
[ 5 ] Wasantha Lal A M. Calibration of riverhed roughness[J]. Joumal of Hydraulic Engineering ,1995, 121(9): 664-671. link1
[ 6 ] Khatibi R H, WilliamsJJR, Wormleaton P R. Identification probem of open-channel friction parameters [J]. Journal of Hy-draulic Enginee ring,1997, 123(12): 1078-1088 link1
[ 7 ] Atanov G A, EvsevaE G, Meselhe E A. Estimation of rough-ness profile in tra pezoidal open channel[J]. Joumal of Hydraulic Eng inee ring, 1999, 125(3): 309-312. link1
[ 8 ] Ramesh R, Datta B, Bhallamudi s M, et al. Optimal estimation of roughness in openehannel flows [J]. Journal of Hydraulic Engi-nee ring,2000, 126(4): 299 -303. link1
[ 9 ] Yan Ding,Jia Yafei,Sam S Y Wang,et al..Identification of manni ng´s roughnes in shall ow water flows[J].Journal of Hy-draul ic Engineening,2004,130(6):501-510. link1
[10] Wong Ts w,Zhou M C.Kinematic wave pa ra met ers and time of travel in circular channel revisited[J].Advances in Water Re-sources,2003,26:417-425
[11] Hsu Minghis,Fu Jincheng,Liu Wencheng.Dynamic routing model with realtime roughness updating for flood forecas ingJ].Journal of Hydraulic Engineering,2006,132(6):605-619. link1
[12] 金忠青,韩龙喜,复杂河网的水力计算及参数反问题[J].水动力学研究与进展,1998,13(3):280-285. link1
[13] 董文军,杨则藥,一维圣维南方程的反问题研究与计算方法[J].水利学报,2002(9):61-65. link1
[14] 李光炽,周晶晏,张贵寿,用卡尔曼滤波求解河道糙率参数反问题[J].河海大学学报,2003,31(5):490-493. link1
[15] 程伟平,刘国华,基于广义逆理论的河网糙率反演研究[J]. 浙江大学学报(工学版),2005,39(10)1603-1608. link1
[16] 王光谦,黄跃飞,魏加华,等,南水北调中线工程总干渠糙率综合论证[J].南水北调与水利科技,2006,4(1):8-14. link1
[17] 徐枋同,李永华,系统辨识理论与实践:在水电控制工程中的应用[M].北京:中国电力出版社,1999.
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