Seismic Design of Offshore Wind Turbine Withstands Great East Japan Earthquake and Tsunami
被引量:1
Seismic Design of Offshore Wind Turbine Withstands Great East Japan Earthquake and Tsunami
参考文献4
1 Japan Meteorological Agency. 2011. "Monthly Report on Earthquakes and Volcanoes in Japan." Accessed June 20, 2014. http://www.seisvol.kishou.go.jp/eq/2011 03 11 tohoku/index.html.
2 The Oversea Costal Area Development Institute of Japan. 2007. "Technical Standards and Commentaries for Port and Harbour Facilities in Japan." The Port and Harbours Association of Japan, Tokyo.
3 Morison, J. R., Johnson, J. W., and Schaaf, S. A. 1950. "The Force Exerted by Surface Waves on Piles.'" Journal of Petroleum Technology 2 (5): 149-54.
4 Lloyd, G. 2004. "Guideline for the Certification of Wind Turbines, Edition 2003 with Supplement 2004." Germanischer Lloyd Industrial Services GmbH, Hamburg.
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