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Environmental Geomechanics

Environmental Geomechanics. Instructor: Prof. Devendra Narain Singh, Department of Civil Engineering, IIT Bombay. A consideration of technical and scientific aspects of key geo-societal issues will be covered in this course. Case studies and analysis of current and historic databases will be used to illustrate topics including, but not limited to, impact of climate change, energy resources, water and soil pollution, and health risks posed by heavy metals and emerging pollutants. Upon successful completion of this course, the student would: 1) Have an exposure to interdisciplinary issues pertaining to environment and geotechnical engineering. 2) Be trained to develop sustainable and environmentally sound solutions for geoenvironmental issues. 3) Understand the relevance of various legal aspects involved in addressing environmental consequences associated with geotechnical issues. (from nptel.ac.in)

Lecture 07 - Scope of Environmental Geomechanics I


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Lecture 01 - Introduction
Lecture 02 - Introduction (cont.)
Lecture 03 - Overview
Lecture 04 - Civil Engineering and Soil Mechanics
Lecture 05 - Soil Mechanics
Lecture 06 - Environmental Geomechanics
Lecture 07 - Scope of Environmental Geomechanics I
Lecture 08 - Scope of Environmental Geomechanics II
Lecture 09 - Scope of Environmental Geomechanics III
Lecture 10 - Recent Trends
Lecture 11 - Recent Trends (cont.)
Lecture 12 - Energy Geotechnics
Lecture 13 - Soil: A Living Entity
Lecture 14 - Soil-Water-Environment Interaction I
Lecture 15 - Soil-Water-Environment Interaction II
Lecture 16 - Soil-Water-Environment Interaction III
Lecture 17 - Particle Energy Field Theory I
Lecture 18 - Particle Energy Field Theory II
Lecture 19 - Particle Energy Field Theory III
Lecture 20 - Waste: A Man-made Resource I
Lecture 21 - Waste: A Man-made Resource II
Lecture 22 - Waste: A Man-made Resource III
Lecture 23 - Application of Industrial Byproducts
Lecture 24 - Application of Industrial Byproducts (cont.)
Lecture 25 - Geomaterial Characterization: Mineralogical Characterization
Lecture 26 - Geomaterial Characterization: Mineralogical Characterization (cont.)
Lecture 27 - Geomaterial Characterization: Morphological Characterization
Lecture 28 - Geomaterial Characterization: Morphological Characterization (cont.)
Lecture 29 - Geomaterial Characterization: Specific Surface Area
Lecture 30 - Geomaterial Characterization: Chemical Characterization I
Lecture 31 - Geomaterial Characterization: Chemical Characterization II
Lecture 32 - Geomaterial Characterization: Chemical Characterization III
Lecture 33 - Geomaterial Characterization: Chemical Characterization IV
Lecture 34 - Geomaterial Characterization: Chemical Characterization V
Lecture 35 - Geomaterial Characterization: Chemical Characterization VI
Lecture 36 - Geomaterial Characterization: Corrosion Potential of Soils
Lecture 37 - Soil Characteristics and Environmental Variables
Lecture 38 - Corrosion Potential of Soils
Lecture 39 - Contaminant Transport through Porous Media I
Lecture 40 - Contaminant Transport through Porous Media II
Lecture 41 - Contaminant Transport through Porous Media III
Lecture 42 - Sorption-Desorption Characteristics I
Lecture 43 - Sorption-Desorption Characteristics II
Lecture 44 - Sorption-Desorption Characteristics III
Lecture 45 - Thermal Characterization I
Lecture 46 - Thermal Characterization II
Lecture 47 - Thermal Characterization III
Lecture 48 - Cracking Characteristics of Fine-grained Soils I
Lecture 49 - Cracking Characteristics of Fine-grained Soils II
Lecture 50 - Cracking Characteristics of Fine-grained Soils III
Lecture 51 - Electrical Characterization I
Lecture 52 - Electrical Characterization II
Lecture 53 - Electrical Characterization III
Lecture 54 - Magnetic Characterization
Lecture 55 - Pore-structure Characterization
Lecture 56 - Pore-structure Characterization (cont.)