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Geomechanics for Energy and a Sustainable Environment

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This book describes recent advances in geomechanics for energy and the sustainable environment. Four research articles, related to high-level radioactive nuclear waste disposal stability, geological effect and wellbore stability considerations for methane gas hydrate production, and artificial soil freezing, are presented in this book. In addition, a comprehensive state-of-the-art review verifies the strong correlation between global climate change and the occurrence of geotechnical engineering hazards. The review also summarizes recent attempts to reduce CO2 emissions from civil and geotechnical engineering practices. Readers will gain ideas as to how we can deal with conventional and renewable energy sources and environment-related geotechnical engineering issues.

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Keywords

  • artificial frozen soil wall
  • Carbon Dioxide
  • clay content
  • Climate Change
  • constitutive model
  • CWFS
  • damage process
  • depressurization method
  • dilation angle
  • direct shear experiment
  • disaster
  • extreme precipitation
  • geotechnical engineering hazard
  • Global warming
  • granite
  • greenhouse gas
  • ground improvement
  • HLW disposal
  • hydrate mining
  • Lattice Boltzmann method
  • Mechanical Property
  • methane hydrate
  • normal stress
  • Numerical Simulation
  • phase change
  • plastic shear strain
  • plastic strain
  • shear shrinkage
  • shear/normal coupling stiffness
  • slippage at the interface
  • soil stabilization
  • strength criterion
  • temperature
  • temperature field
  • triaxial shear
  • wellbore stability analysis
  • yield condition

Links

DOI: 10.3390/books978-3-03928-151-0

Editions

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