000			06061cam a2200433Mi 4500
001			ocn891383806
003			OCoLC
005			20190328114809.0
006			m o d
007			cr cn|||||||||
008			140905t20152015ne a ob 001 0 eng d
040			_aE7B _beng _erda _epn _cE7B _dOCLCO _dUIU _dOCLCF _dOCLCQ _dCSAIL _dFEM _dOCLCQ _dUAB _dTEU _dU3W _dD6H _dOCLCQ _dWYU
019			_a968088572 _a969048810 _a1066421611
020			_a9780128005811 _q(e-book)
020			_a0128005815 _q(e-book)
020			_z9780128000755
035			_a(OCoLC)891383806 _z(OCoLC)968088572 _z(OCoLC)969048810 _z(OCoLC)1066421611
050		4	_aGB1005 _b.S46 2015eb
082	0	4	_a551.49 _223
100	1		_a�Sen, Zek�ai, _eauthor.
245	1	0	_aPractical and applied hydrogeology / _h[electronic resource] _cZek�ai Sen.
264		1	_aAmsterdam, Netherlands ; _aOxford, England : _bElsevier, _c2015.
264		4	_c�2015
300			_a1 online resource (417 pages) : _billustrations (some color)
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
347			_atext file _2rda
504			_aIncludes bibliographical references and index.
588	0		_aPrint version record.
505	0	0	_gMachine-generated contents note: _g1. _tWater Science Basic Information -- _g1.1. _tHydrology (Water Science) Elements -- _g1.2. _tHydrologic Cycle -- _g1.3. _tRainfall -- _g1.4. _tEvaporation and Evapotranspiration -- _g1.5. _tInfiltration -- _g1.6. _tRunoff -- _g1.7. _tGroundwater -- _g1.8. _tClimate Change and Ground Water -- _g1.9. _tGeology and Groundwater -- _g1.10. _tGroundwater Use in Petroleum -- _tReferences -- _g2. _tBasic Porous Medium Concepts -- _g2.1. _tGeologic Considerations -- _g2.2. _tGrain Size -- _g2.3. _tReservoir Classifications -- _g2.4. _tHydraulic Terminologies -- _g2.5. _tEquipotential Lines -- _g2.6. _tAquifer Types -- _g2.7. _tAquifer Parameters -- _g2.8. _tDarcy's Law -- _g2.9. _tHeterogeneity and Anisotropy -- _g2.10. _tWater Budget -- _g2.11. _tGroundwater Elements -- _tReferences -- _g3. _tGroundwater Hydraulics and Confined Aquifers -- _g3.1. _tGroundwater Wells -- _g3.2. _tField Measurements and Tests -- _g3.3. _tAquifer Test Analyses -- _g3.4. _tRadial Steady-State Flow in Confined Aquifers -- _g3.5. _tRadial Steady-State Groundwater Flow in Leaky Aquifers -- _g3.6. _tUnsteady-State Flow in Aquifers -- _g3.7. _tSlope Method -- _g3.8. _tCimen Method -- _g3.9. _tCooper-Jacob (CJ) Straight-Line Methods -- _g3.10. _tDimensionless Straight-Line Analysis -- _g3.11. _tVariable Discharge Type Curves -- _g3.12. _tQuasi-Steady-State Flow Storage Calculation -- _g3.13. _tUnsteady Radial Flow in a Leaky Aquifer Test -- _g3.14. _tLarge-Diameter Well Hydraulics -- _g3.15. _tAquifer Double Test -- _g3.16. _tRecovery Method -- _g3.17. _tWell Test (Step-Drawdown Test) -- _g3.18. _tAquifer Classification by Fuzzy Hydrogeological Parameter Descriptions -- _tReferences -- _g4. _tUnconfined Aquifers -- _g4.1. _tUnconfined Aquifer Properties -- _g4.2. _tQuaternary Deposit Aquifers -- _g4.3. _tFractured Rocks -- _g4.4. _tKarstic Media -- _g4.5. _tHydraulic Structures -- _g4.6. _tGroundwater Hydraulics -- _g4.7. _tSteady-State Flow to Wells -- _g4.8. _tGroundwater Recharge -- _g4.9. _tUnsteady Radial Flow in Unconfined Aquifers -- _g4.10. _tNatural Groundwater Recharge -- _g4.11. _tRecharge Outcrop Relation (ROR) Method -- _g4.12. _tChloride Mass Balance (CMB) Method -- _g4.13. _tArtificial Groundwater Recharge -- _g4.14. _tAquifer Properties and Groundwater Availability Calculations -- _g4.15. _tClimate Change and Groundwater Recharge -- _g4.16. _tUpconing -- _tReferences -- _g5. _tGroundwater Quality -- _g5.1. _tHydrochemistry -- _g5.2. _tIonic Constituents -- _g5.3. _tMajor Ions -- _g5.4. _tChemical Units and Balance -- _g5.5. _tGroundwater Sampling and Analysis -- _g5.6. _tComposite Quality Indicators -- _g5.7. _tComposite Variable Relationships -- _g5.8. _tWater Quality Graphical Representations -- _g5.9. _tThe Ghyben-Herzberg Relation -- _g5.10. _tArtificial Groundwater Mixture -- _g5.11. _tEnvironmental Isotopes -- _g5.12. _tGroundwater Rise and Quality Variations -- _g5.13. _tStandard Ion Index for Groundwater Quality Evolution -- _g5.14. _tGroundwater Quality Variation Assessment Indices -- _g5.15. _tFuzzy Groundwater Classification Rule Derivation from Quality Maps -- _g5.16. _tClimate Change and Groundwater Quality -- _tReferences -- _g6. _tGroundwater Management -- _g6.1. _tGeneral -- _g6.2. _tManagement Planning -- _g6.3. _tManagement Environments -- _g6.4. _tLocal Conditions -- _g6.5. _tPreliminary Management Requirements -- _g6.6. _tGroundwater Management Objectives -- _g6.7. _tIntegrated Groundwater Management -- _g6.8. _tBasic Management Variables -- _g6.9. _tHydrogeological Management -- _g6.10. _tBasic Management Models for Aquifers -- _g6.11. _tProbabilistic Risk Management in an Aquifer -- _g6.12. _tGroundwater Level Rise Modelling in Cities -- _g6.13. _tAquifer Uncertainties and Strategic Planning -- _g6.14. _tOptimum Yield and Management in a Well Field -- _g6.15. _tWater Storage Volume Risk Calculation -- _g6.16. _tAquifer Uncertainties and Management -- _tReferences.
520			_aApplications 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,
650		0	_aHydrogeology.
650		7	_aHydrogeology. _2fast _0(OCoLC)fst00965077
655		4	_aElectronic books.
655		0	_aElectronic book.
776	0	8	_iPrint version: _aSen, Zek�ai. _tPractical and applied hydrogeology. _dAmsterdam, Netherlands ; Oxford, England : Elsevier, �2015 _hx, 406 pages _z9780128000755
856	4	0	_3ScienceDirect _uhttp://www.sciencedirect.com/science/book/9780128000755
999			_c246963 _d246963