Reprint

New Advances in Marine Engineering Geology

Edited by
December 2021
258 pages
  • ISBN978-3-0365-2423-8 (Hardback)
  • ISBN978-3-0365-2422-1 (PDF)

This book is a reprint of the Special Issue New Advances in Marine Engineering Geology that was published in

Engineering
Environmental & Earth Sciences
Summary

The ocean is the cradle of life and is rich in natural resources. With the worldwide boom in exploration and application of ocean resources, a dramatically increasing amount of coastal engineering and offshore engineering facilities have been constructed in the last few decades. The rapid development of human economic activities and the global climate change have significant impacts on the marine environment, resulting in frequent geological disasters. Under this circumstance, there is an urgent demand for a platform for scientists and engineers to share their state-of-art research outcomes in the field of Marine Engineering Geology. This book is a collection of a series of articles from the 2nd International Symposium of Marine Engineering Geology (ISMEG 2019), presenting some of the recent efforts made towards marine engineering geology and geotechnics, including theoretical advances, laboratory and field testing, design methods, and the potential for further development of these disciplines.

Format
  • Hardback
License
© by the authors
Keywords
marine soft soil; double-layer foundation; consolidation theory; drainage boundary; spudcan; skirted footing; footprint; jack-up; clay; large deformation analysis; coral sands; porous media; model test; dispersion; mechanical dispersion; molecular diffusion; soft clay; cyclic loads; residual pore pressure; suction anchor; wave; seafloor instability; pore pressure; slide surface; gas distribution; meshfree method; VARANS; Biot’s “up” approximation; wave-current induced seabed response; immersed tunnel; sediment liquefaction; heavy metal; migration; interior of sediment; the subaqueous Yellow River Delta; ocean waves; double-frequency microseisms; continental margin; continental slope; coral sand; Fujian sand; shaking table test; dynamic response; pile group; marine engineering; seismic liquefaction; novel liquefaction-resistant structures; mitigation strategies; sand wave; pressure sensing technique; physical model test; field application; wingsail; aerodynamics; numerical simulation; marine silty sand; small-strain stiffness; Hardin model; binary packing model; marine soft soil; dredging and reclamation; constitutive relationship; centrifugal experiment; void ratio–effective stress; void ratio–permeability coefficient; n/a