Debris as Resources Applied in Wild Creeks Remediation Work

Miau Bin Su; Yu Shu Lin; Jun Yang Chen

doi:10.4028/www.scientific.net/AMM.764-765.1058

Paper Titles

An Experimental Study on Residual Strength and Deformation Recovery of RC Beams Strengthened with FRP Plate
p.1036

Centrifuge Seismic Test on Seismic Behavior of Pile Group in Liquefiable Soil
p.1041

Comparison between Simulation of Reduced Scale Vertical Concrete Cask under the Earthquake Effect and Experimental Result
p.1046

Damage Diagnosis of a Structure in Time-Frequency Domain
p.1051

Debris as Resources Applied in Wild Creeks Remediation Work
p.1058

Diagnostics of a Historical Bridge Using Measuring Methods and Inverse Analysis
p.1064

Dynamic Equilibrium Analysis and Simulation of Submerged Kuroshio Generator System
p.1070

Energy-Saving Operation Strategies for Air-Conditioning Systems in Response to Challenges Posed by Atmospheric Environment of Taiwan
p.1075

Experimental Evaluation of Shear Behaviors of Concrete Deep Beams with GFRP Shear Reinforcement
p.1080

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 764-765Debris as Resources Applied in Wild Creeks...

Debris as Resources Applied in Wild Creeks Remediation Work

Abstract:

In recent years, especially after typhoon Morakot, extreme torrential rain has resulted in large amounts of landslides in Taiwan. Debris that accumulated downslope blocked the drainage way and induced debris flow very often. The large amount of debris transported to wild creeks downstream may caused elevated riverbeds and channel siltation. All nearby villages and utilities are under this threat. The cleanout work of aggregated debris is of great priority after a disaster. In processing the cleanout work for wildcreek, debris can be treated as useful resources. This is very important in the watershed management and rehabilitation work. In solving the debris blockage problem, cleanout of debris so as to recover the drainage capability of watershed and at the same time, use the earth material to form the protecting measures can meet the carbon reduction requirement. Cleanout of the debris can be used in filling low-lying land in the upstream catchment area. By applying feasible methods to improve engineering properties of the debris can be used to make a variety of protective measures, to resolve the loss of land, roads, damaged buildings and other issues. In planning, the first is to consider the location and the protected object, etc., can be planned establish of embankment, bank protection, slope protection, and berms.

You might also be interested in these eBooks

Modern Design Technologies and Experiment for Advanced Manufacture and Industry

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 764-765)

Pages:

1058-1063

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.764-765.1058

Citation:

Cite this paper

Online since:

May 2015

Authors:

Miau Bin Su*, Yu Shu Lin, Jun Yang Chen

Keywords:

Cleanout, Earth Resources, Regulation Planning, Wildcreek

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Public Construction Commission, Executive Yuan, Public Works Construction Outline and Regulations webpage data (2011) on http: /pcces. archnowledge. com/csinew/Default. aspx?FunID=Fun_9_3&SearchType=B.

Google Scholar

[2] C.C. Chen, Siltation Debris Land Utilization Research and Counseled Pilot Project Works. Taiwan Construction Research Institute. Soil and Water Conservation Bureau, Council of Agriculture, Executive Yuan (2008).

Google Scholar

[3] Official website webpage data from the ISM Method Society, Japan. (2011) on http: /www. ism-method. jp.

Google Scholar

[4] Chinese National Standard, Bureau of Standards, Metrology & Inspection, M. O. E. A. (2009).

Google Scholar

[5] ASTM Stands, American Society for Testing and Materials (ASTM D2487) (1998).

Google Scholar