Buch, Englisch, 399 Seiten, Previously published in hardcover, Format (B × H): 155 mm x 235 mm, Gewicht: 702 g
Reihe: Innovation and Discovery in Russian Science and Engineering
Buch, Englisch, 399 Seiten, Previously published in hardcover, Format (B × H): 155 mm x 235 mm, Gewicht: 702 g
Reihe: Innovation and Discovery in Russian Science and Engineering
ISBN: 978-3-030-06307-8
Verlag: Springer International Publishing
- Maximizes reader understanding of natural hazards research and risk analysis in Russia;
- Explains relevance and application of primary tools and practices in risk study;
- Clarifies similarities and differences in fundamental concepts and principles across the discipline;
- Directs geologists, engineers, architects, planners, teachers, students, and others to authoritative sources.
Zielgruppe
Research
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Chapter1: Technogenesis and natural disasters.- Chapter2: Complications and Prospects of the Hydrogeological Substantiation of Drainage in Deep Tunnels.- Chapter3: Probabilistic Approach to Forecast of the Risk Caused by Groundwater Contamination.- Chapter4: Landslide and Seismic Monitoring Systems.- Chapter5: Early-Warning Landslide Monitoring System.- Chapter6: Problems in forecasting dangerous processes and phenomena on the base of the Earth Remote sensing data.- Chapter7: Assessment and mapping geological risk for the future subsurface linear construction in Moscow.- Chapter8: Deep extrusive landslides. peculiarities of formation, development and protection.- Chapter9: The research of surface runoff in engineering-geological zoning.- Chapter10: Assessment of Seismic Hazards for Extractive Installations of the Oil and Gas Complex on the Caspian Sea Shelf.- Chapter11: Geodinamic stability of territories with specially important engineering objects.- Chapter12: Combined measures on providing safety of technogenic objects within the mined territories of potassium deposits in Perm region, Russia.- Chapter13: Geo-Environmental Sustainability of Arctic Area of The Russian Federation.- Chapter14: Geo-Environmental Zoning for Urban Planning and Design.- Chapter15: Objective methods for compiling integral maps.- Chapter16: Suture zones as upper crustal seismogenerating structures.- Chapter17: Stochastic modelling of human-induced thermokarst and natural risk assessment for existing and planned engineering structures.- Chapter18: Stochastic modelling of natural lacustrine thermokarst under stable and unstable climate.- Chapter19: Seismo - ecological monitoring of seismic and special – hazard object.- Chapter20: Landslide Risk Assessment, Management and Reduction for City Territories.- Chapter21: Mechanical-Mathematical Modeling for Landslide Processes.- Chapter22: Structural transformations of perennial frozen rocks during the Yamal Crater formation.-Chapter23: Landslide activity and landslide hazard in Geyser valley (Kamchatka peninsula, Russia).- Chapter24: The History of Slope Evolution as Primary Cause of Modern Landslide Deformations (on the example of a landslide “Vorobyovy Gory”, Moscow).- Chapter25: Application of Fractal Theory Methods for Seismogram Analysis.- Chapter26: The new method of the potentially hazardous geodynamic active zones mapping.
