Set Pair-Wavelet Analysis on Water Resources Compensation Characteristics of Fu River Basin

Dai Qing Zhang; Ya Dong Mei; Ting Yong; Yan Lai Zhou

doi:10.4028/www.scientific.net/AMR.433-440.1153

Paper Titles

River's Meander Energy Conservation as a Renewable Energy Recourse, a Mathematical and Technology Status Review
p.1132

Nuclear Malaysia: Issues and Challenges
p.1137

Utilization of Wind Power as a Renewable Energy in Asbads, Case of Iran, Sistan
p.1141

Current Situation and Abatement Potential of SO₂ Emissions from Coke Making Industry in China
p.1146

Set Pair-Wavelet Analysis on Water Resources Compensation Characteristics of Fu River Basin
p.1153

Stability Analysis of Shallow Stratum in Jiangshidi Nuclear Power Plant Site and its Surrounding Areas
p.1162

Design and Implementation of Flexible Control Strategy for Stand Alone Wind Generator System
p.1169

Research on the Computational Methods of Eco-Compensation Standard for Chan-Ba Ecological District in Xi’an Urban Areas
p.1174

River Water and Ground Source Heat Pump Integrated Application of Energy-Saving Technology
p.1178

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 433-440Set Pair-Wavelet Analysis on Water Resources...

Set Pair-Wavelet Analysis on Water Resources Compensation Characteristics of Fu River Basin

Abstract:

To solve the flood-drought coexistence issue by taking measures on water resources compensation (WRC), the set pair-wavelet analysis method (SPWAM) is proposed to study water resources compensation characteristics (WRCC); and Fu River Basin as a case, the uncertainty correlation and its periodic variation laws, which are implied in synchronous-asynchronous encounter probability of rich-poor rainfall and runoff, are researched; then the traditional methods are used to test the results; the conclusions obtained show that: in Fu River Basin, there is an uncertainty correlation of more synchronous(encounter) probability and little asynchronous(compensation) probability of rich-poor rainfall and runoff or runoff and runoff, and a variation law, which is of characteristics of multiple main cycles, is an alternate change of partial encounter and partial compensation in the correlation. These conclusions can provide better basis and condition to solve the flood-drought coexistence in the basin by adopting measures of WRC regulation and flood resources.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 433-440)

Pages:

1153-1161

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.433-440.1153

Citation:

Cite this paper

Online since:

January 2012

Authors:

Dai Qing Zhang, Ya Dong Mei, Ting Yong, Yan Lai Zhou

Keywords:

Compensation Characteristics, Fu River Basin, Set Pair-Wavelet Analysis, Water Resource

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] WANG Zhengxiang, ZHANG Mingbo. Synchronous- asynchronous encounter probability of rich-poor precipitation between water source and water receiving areas in the Middle Route of South-to-North Water Transfer Project[J]. Yangtze River, 2008, 39(17): 103- 105.

Google Scholar

[2] ZHENG Hongxing, LIU Changming. Analysis on Asynchronism- synchronism of regional precipitation in planned South-to-North Water Transfer areas[J]. Geographical Journal, 2000, 55(5): 523- 532.

DOI: 10.1007/bf02888686

Google Scholar

[3] YAN Baowei, GUO Shenglian, XIAO Yi. Synchronous- asynchronous encounter probability of rich-poor precipitation between water source area and water receiving areas in the Middle Route of South-to-North Water Transfer Project[J]. Journal of Hydraulic Engineering, 2007, 38 (10): 1178- 1185.

Google Scholar

[4] ZHAO Keqin. Set pair analysis and its preliminary application[M]. Hangzhou: Zhejiang Science and Technology Press, 2000, 3.

Google Scholar

[5] Morlet J, Arens G, Fourgeau E, et al. Wave propagation and sampling theory-part II: Sampling theory and complex waves [J]. Geophysics, 1982, 47 (2): 222-236.

DOI: 10.1190/1.1441329

Google Scholar

[6] WANG Wensheng, DING Jing, LI Yueqing. Hydrological wavelet analysis[M]. Beijing: Chemical Industry Press, 2005: 4- 130.

Google Scholar

[7] WANG Wensheng, DING Jing, JIN Juliang. Stochastic hydrology[M]. Beijing: China Water Power Press, (2008).

Google Scholar

[8] CHEN Shouyu. Variable fuzzy sets theory and methods of water resources and flood control system[M ]. Dalian: Dalian Technology University Press, (2005).

Google Scholar

[9] XIA Jun. Quality assessment of regional water environment and ecological environment[M]. Wuhan: Wuhan Hydraulic and Electric University Press, (1999).

Google Scholar

[10] WAN Xing, WANG Wensheng, DING Jing. Set pair analysis and its application to hydrology and water resources [J]. Advances in Science and Technology of Water Resources, 2006, 26(4): 9- 11.

Google Scholar

[11] WANG Wensheng, LI Yueqing, JIN Juliang, Relation analysis of hydrological variables based on set pair principle[ J]. Journal of Sichuan University (Engineering Science Edition), 2009, 41(2): 1- 5.

Google Scholar

[12] GAO Junsheng, GAO Xiufang, LU Bilin. Quality assessment of water environment of long lake based on set pair analysis[J]. Yellow River, 2009, 31 (12): 69-70.

Google Scholar

[13] DENG Hongxia, LI Cunjun, ZHANG Shaowen, et al. Selection method of similar basins based on set pair analysis[J]. Yellow River, 2006, 28(7): 3- 4.

Google Scholar

[14] LAN Yong-chao, SHEN Yong-ping, LIN Shu. Changes in high and low flow cycles of the upper reaches of Yellow River and their circumfluence backdrop[J]. Journal of glaciology and geocryology, 2006, 28(6): 950-955.

Google Scholar

[15] DENG Hongxia, TANG chengyou, LI Cunjun, et al. Runoff characteristic analysis by fuzzy pattern recognition[J]. Journal of Sichuan University (Engineering Science Edition), 2006, 38(3): 29-33.

Google Scholar