Offers a design and analysis reference that emphasizes practical solutions for engineers, scientists, consultants, and students knowledgeable in basic ground water theory. This book discusses such models as steady-state, transient flow with constant discharge, slug injection or withdrawal, and step discharge. New! A practical, easy-to-use reference for the design and analysis of groundwater pumping and slug tests Aquifer Testing: Design and Analysis of Pumping and Slug Tests is a complete design and analysis reference emphasizing practical solutions for engineers, scientists, consultants, and students knowledgeable in basic ground water theory…mehr
Offers a design and analysis reference that emphasizes practical solutions for engineers, scientists, consultants, and students knowledgeable in basic ground water theory. This book discusses such models as steady-state, transient flow with constant discharge, slug injection or withdrawal, and step discharge.New! A practical, easy-to-use reference for the design and analysis of groundwater pumping and slug tests Aquifer Testing: Design and Analysis of Pumping and Slug Tests is a complete design and analysis reference emphasizing practical solutions for engineers, scientists, consultants, and students knowledgeable in basic ground water theory
Karen Dawson is a member of the geotechnical staff of CH2M Hill in Bellevue, Washington. She received an M.S. in geotechnical engineering with an environmental engineering minor and focus on groundwater from Oregon State University. She also has B.S. degrees in civil and forest engineering from Oregon State University. Karen was formerly an employee of the Washington State Department of Transportation and involved with the design of the Seattle I-90 project. Jonathan Istok is an Associate Professor in the Department of Civil Engineering at Oregon State University. He specializes in the development of statistical and mathematical models for groundwater flow and contaminant transpon processes. He is the author of the American Geophysical Union Water Resources Monograph Groundwater modeling by the finite element method.
Inhaltsangabe
Preface PART I BASIC CONCEPTS Chapter 1 IN1RODUCTION Chapter 2 AQUIFER TEST DESIGN Chapter 3 CORRECTIONSTODRAWDOWNDATA Chapter 4 ANALYSIS OF PUMPING TEST DATA Chapter 5 ANALYSIS OF STEP DISCHARGE PUMPING TESTS PART II AQUIFER MODELS Chapter 6 MODEL 1: EQUILIDRIUM CONFINED 6.4 Methods of Analysis Chapter 7 MODEL 2: EQUILIBRIUM UNCONFINED Chapter 8 MODEL 3: TRANSIENT CONFINED Chapter 9 MODEL 4: TRANSIENT CONFINED LEAKY Chapter 10 MODEL 5: TRANSIENT CONFINED LEAKY AQUITARD STORAGE Chapter 11 MODEL 6: TRANSIENT CONFINED PARTIAL PENETRATION ANISOTROPIC Chapter 12 MODEL 7: TRANSIENT CONFINED LEAKY PARTIAL PENETRATION ANISOTROPIC Chapter 13 MODEL 8: TRANSIENT CONFINED WELL STORAGE Chapter 14 MODEL 9: TRANSIENT CONFINED LEAKY WELL STORAGE Chapter 15 MODEL 10: TRANSIENT CONFINED FISSURE-BLOCK SYSTEM Chapter 16 MODEL 11: TRANSIENT CONFINED ANISOTROPIC IN TWO HORIZONTAL DIRECTIONS Chapter 17 MODEL 12: TRANSIENT UNDERGOING CONVERSION FROM CONFINED TO UNCONFINED Chapter 18 MODEL 13: TRANSIENT UNCONFINED ANISOTROPIC Chapter 19 MODEL 14: TRANSIENT UNCONFINED PARTIAL PENETRATION ANISOTROPIC Chapter 20 MODEL 15: TRANSIENT UNCONFINED PARTIAL PENETRATION ANISOTROPIC WELL STORAGE Chapter 21 MODEL 16: TRANSIENT UNCONFINED PARTIAL PENETRATION AQUITARD-AQUIFER Chapter 22 MODEL 17: SLUG TEST- CONFINED INFINITE OR SEMI[1]INFINITE DEPTH INCOMPRESSFILE AQUIFER ANISOTROPIC Chapter 23 MODEL 18: SLUG TEST- UNCONFINED OR LEAKY CONFINED INCOMPRESSFILE AQUIFER PARTIAL PENETRATION Chapter 24 MODEL 19: SLUG TEST- CONFINED COMPRESSIBLE AQUIFER WELL STORAGE