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Practical and applied hydrogeology
Author
Title
Practical and applied hydrogeology / Zekâi Sen.
ISBN
9780128005811
0128005815
9780128000755
Publication
Amsterdam, Netherlands ; Oxford, England : Elsevier, 2015.
Copyright Notice Date
©2015
Physical Description
1 online resource (417 pages) : illustrations (some color)
Local Notes
Access is available to the Yale community.
Access and use
Access restricted by licensing agreement.
Summary
Applications in Hydrogeology for Geoscientists presents the most recent scientific developments in the field that are accessible yet rigorous enough for industry professionals and academic researchers alike. A multi-contributed reference that features the knowledge and experience of the field's experts, the book's chapters span the full scope of hydrogeology, introducing new approaches and progress in conceptualization, simulation of groundwater flow and transport, and progressive hydro-geophysical methods. Each chapter includes examples of recent developments in hydrogeology, groundwater,
Variant and related titles
Elsevier ScienceDirect All Books. OCLC KB.
Other formats
Print version: Sen, Zekâi. Practical and applied hydrogeology. Amsterdam, Netherlands ; Oxford, England : Elsevier, ©2015
Format
Books / Online
Language
English
Added to Catalog
June 17, 2020
Bibliography
Includes bibliographical references and index.
Contents
Machine-generated contents note: 1. Water Science Basic Information
1.1. Hydrology (Water Science) Elements
1.2. Hydrologic Cycle
1.3. Rainfall
1.4. Evaporation and Evapotranspiration
1.5. Infiltration
1.6. Runoff
1.7. Groundwater
1.8. Climate Change and Ground Water
1.9. Geology and Groundwater
1.10. Groundwater Use in Petroleum
References
2. Basic Porous Medium Concepts
2.1. Geologic Considerations
2.2. Grain Size
2.3. Reservoir Classifications
2.4. Hydraulic Terminologies
2.5. Equipotential Lines
2.6. Aquifer Types
2.7. Aquifer Parameters
2.8. Darcy's Law
2.9. Heterogeneity and Anisotropy
2.10. Water Budget
2.11. Groundwater Elements
References
3. Groundwater Hydraulics and Confined Aquifers
3.1. Groundwater Wells
3.2. Field Measurements and Tests
3.3. Aquifer Test Analyses
3.4. Radial Steady-State Flow in Confined Aquifers
3.5. Radial Steady-State Groundwater Flow in Leaky Aquifers
3.6. Unsteady-State Flow in Aquifers
3.7. Slope Method
3.8. Cimen Method
3.9. Cooper-Jacob (CJ) Straight-Line Methods
3.10. Dimensionless Straight-Line Analysis
3.11. Variable Discharge Type Curves
3.12. Quasi-Steady-State Flow Storage Calculation
3.13. Unsteady Radial Flow in a Leaky Aquifer Test
3.14. Large-Diameter Well Hydraulics
3.15. Aquifer Double Test
3.16. Recovery Method
3.17. Well Test (Step-Drawdown Test)
3.18. Aquifer Classification by Fuzzy Hydrogeological Parameter Descriptions
References
4. Unconfined Aquifers
4.1. Unconfined Aquifer Properties
4.2. Quaternary Deposit Aquifers
4.3. Fractured Rocks
4.4. Karstic Media
4.5. Hydraulic Structures
4.6. Groundwater Hydraulics
4.7. Steady-State Flow to Wells
4.8. Groundwater Recharge
4.9. Unsteady Radial Flow in Unconfined Aquifers
4.10. Natural Groundwater Recharge
4.11. Recharge Outcrop Relation (ROR) Method
4.12. Chloride Mass Balance (CMB) Method
4.13. Artificial Groundwater Recharge
4.14. Aquifer Properties and Groundwater Availability Calculations
4.15. Climate Change and Groundwater Recharge
4.16. Upconing
References
5. Groundwater Quality
5.1. Hydrochemistry
5.2. Ionic Constituents
5.3. Major Ions
5.4. Chemical Units and Balance
5.5. Groundwater Sampling and Analysis
5.6. Composite Quality Indicators
5.7. Composite Variable Relationships
5.8. Water Quality Graphical Representations
5.9. The Ghyben-Herzberg Relation
5.10. Artificial Groundwater Mixture
5.11. Environmental Isotopes
5.12. Groundwater Rise and Quality Variations
5.13. Standard Ion Index for Groundwater Quality Evolution
5.14. Groundwater Quality Variation Assessment Indices
5.15. Fuzzy Groundwater Classification Rule Derivation from Quality Maps
5.16. Climate Change and Groundwater Quality
References
6. Groundwater Management
6.1. General
6.2. Management Planning
6.3. Management Environments
6.4. Local Conditions
6.5. Preliminary Management Requirements
6.6. Groundwater Management Objectives
6.7. Integrated Groundwater Management
6.8. Basic Management Variables
6.9. Hydrogeological Management
6.10. Basic Management Models for Aquifers
6.11. Probabilistic Risk Management in an Aquifer
6.12. Groundwater Level Rise Modelling in Cities
6.13. Aquifer Uncertainties and Strategic Planning
6.14. Optimum Yield and Management in a Well Field
6.15. Water Storage Volume Risk Calculation
6.16. Aquifer Uncertainties and Management
References.
Subjects
Genre/Form
Electronic book.
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