ElaborateCourse: GeoEnvironmental Engineering

ElaborateCourse: GeoEnvironmental Engineering

精品课程：环境岩土工程

I. Course Introduction (includingteaching goals and requirements):

Geoenvironmental engineering is a new science branchwhich combines traditional geotechnical engineering and environmentalengineering tightly together. However, some researchers think that it is stilla newly developed branch of traditional geotechnical engineering, and it can benamed by environmental geotechnics. The course introduces geoenvironmentalengineering development, related contents, research methods and new techniquesetc. in detail, and collects updated research achievements of scientists in theworld, which reflects the development direction and research level of presentgeoenvironmental engineering. In addition, to meet the practical requirementsin the field of geoenvironmental engineering presently, Special experiment andanalysis methods, the theory and corresponding calculation methods of themigration and fate of contaminants in subsurface, and various remediationtechnologies for contaminated sites are introduced.

Through study of the course, students can learn theresearch scope and its function of geoenvironmental engineering, widen theirvision, and know that engineering techniques can be adopted to protect theenvironment, prevent and decrease pollution, and remediate the environment.

II. Teaching Syllabus (including thecontent of chapters and sections. A sheet can be attached):

Chapter 1Introduction

1.1 Geoenvironmental engineering development

1.2 The basic concept of geoenvironmental engineering

1.3 Research contents and classification of geoenvironmental engineering

Chapter 2Engineering characteristics of municipal solid wastes

2.1 The classification and sources of solid wastes

2.2 Engineering behaviors of municipal solid wastes

Chapter 3 Traditionaltreatment of municipal waste

3.1 Introduction

3.2 Deep-well injection

3.3 Case study of traditional treatment of municipal waste

Chapter 4 Designand calculation of modern landfill of municipal solid waste

4.1 Introduction of modern municipal solid waste landfill

4.2 Constitution of modern municipal solid waste landfill

4.3 Design of the bottom liner system

4.4 Design of the leachate collection and removal system

4.5 Stability analysis of the landfill and design of cover system

Chapter 5 Disposal technology of nuclear waste

5.1 Objectives and principles of radioactivewaste management

5.2 Management of radiation wastewater

5.3 Shallow geological treatment

5.4 Depth geological treatments for highradiation waste

5.5 Selection place and standards for highradiation waste

Chapter 6 Risk assessmentof contaminated sites

6.1 Introduction of risk assessment

6.2 Risk assessment procedure

6.3 ASTM and EPA procedure

6.4 Risk assessment procedure in China

Chapter 7 Contaminant migration in porous media

7.1 Basic concept of contaminant migration

7.2 Adsorption/desorption of contaminants in soil

7.3 Advection and hydraulic dispersion of contaminants in soil

7.4 Contaminant transport theory and computational methods

Chapter 8 Remediation methods of industrial contaminated sites

8.1 Introduction of contaminated sites and classificationof remediation methods

8.2 Principle and application of electrokineticremediation method

8.3 Principle and application of in situ airsparging/soil vapor extraction (AS/SVE) method

8.4 Principle and application of solidification/stabilization(S/S) method

8.5 Principle and application of in situcontainment method

8.6 Principle and application of in situ thermaldesorption method

8.7 Principle and application of soil flushingmethod

Chapter 9 Remediation methods of contaminated underground water

9.1 Introduction of contaminated undergrouandwater

9.2 Principle and application of permeablereactive barrier (PRB)

9.3 Principle and application of in situchemical oxidation (ISCO) method

III. TeachingSchedule: