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200 00$aClosed circuit trickle irrigation design $etheory and applications /$fedited by Megh R. Goyal, PhD, PE, senior editor-in-chief ; Hani A.A. Mansour, PhD, co-editor
210  1$aOakville, Ontario :$cApple Academic Press,$d[2016]
210  4$dİ2016
215   $a1 online resource (430 p.)
225 1 $aResearch Advances in Sustainable Micro Irrigation ;$vVolume 7
300   $aDescription based upon print version of record.
311   $a1-77188-116-X 
320   $aIncludes bibliographical references at the end of each chapters.
327   $aFront Cover; CONTENTS; LIST OF CONTRIBUTORS; LIST OF ABBREVIATIONS; LIST OF SYMBOLS; PREFACE; FOREWORD 1; FOREWORD 2; FOREWORD 3; FOREWORD 4; WARNING/DISCLAIMER; ABOUT SENIOR EDITOR-IN-CHIEF; ABOUT CO-EDITOR; BOOK REVIEWS; OTHER BOOKS ON MICRO IRRIGATION TECHNOLOGY FROM APPLE ACADEMIC PRESS, INC.; PART I IRRIGATION METHODS; CHAPTER 1: SOIL MOISTURE AND SALINITY DISTRIBUTIONS UNDER MODIFIED SPRINKLER IRRIGATION; CHAPTER 2: PERFORMANCE OF SPRINKLER IRRIGATED WHEAT - PART I; CHAPTER 3: PERFORMANCE OF SPRINKLER IRRIGATED WHEAT - PART II; PART II CLOSED CIRCUIT TRICKLE IRRIGATION DESIGN
327   $aCHAPTER 4: DESIGN CONSIDERATIONS FOR CLOSED CIRCUIT DESIGN OF DRIP IRRIGATION SYSTEMCHAPTER 5: PERFORMANCE OF MAIZE UNDER BUBBLER IRRIGATION SYSTEM; CHAPTER 6: ENERGY AND WATER SAVINGS IN DRIP IRRIGATION SYSTEMS; CHAPTER 7: AUTOMATION OF MINI-SPRINKLER AND DRIP IRRIGATION SYSTEMS; PART III APPLICATIONS IN SANDY SOILS; CHAPTER 8: WATER AND FERTILIZER USE EFFICIENCIES FOR DRIP IRRIGATED MAIZE; CHAPTER 9: PERFORMANCE OF DRIP IRRIGATED YELLOW CORN: KINGDOM OF SAUDI ARABIA; CHAPTER 10: WATER AND FERTILIZER USE EFFICIENCIES FOR DRIP IRRIGATED CORN: KINGDOM OF SAUDI ARABIA
327   $aCHAPTER 11: PERFORMANCE OF DRIP IRRIGATED SOYBEANCHAPTER 12: DRIP IRRIGATION IN RICE; CHAPTER 13: EVALUATION OF EMITTER CLOGGING FOR DRIP IRRIGATED SNAP BEANS; CHAPTER 14: EVALUATION OF EMITTER CLOGGING; CHAPTER 15: EVAPOTRANSPIRATION FOR CYPRESS AND PINE FORESTS: FLORIDA, USA1; APPENDIX A: CONVERSION SI AND NON-SI UNITS; APPENDIX B: PIPE AND CONDUIT FLOW; APPENDIX C: PERCENTAGE OF DAILY SUNSHINE HOURS: FOR NORTH AND SOUTH HEMISPHERES; APPENDIX D: PSYCHOMETRIC CONSTANT (?) FOR DIFFERENT ALTITUDES (Z); APPENDIX E: SATURATION VAPOR PRESSURE [es] FOR DIFFERENT TEMPERATURES (T)
327   $aAPPENDIX F: SLOPE OF VAPOR PRESSURE CURVE (?) FOR DIFFERENT TEMPERATURES (T)APPENDIX G: NUMBER OF THE DAY IN THE YEAR (JULIAN DAY); APPENDIX H: STEFAN-BOLTZMANN LAW AT DIFFERENT TEMPERATURES (T); APPENDIX I: THERMODYNAMIC PROPERTIES OF AIR AND WATER; Back Cover
330   $aClosed circuit trickle irrigation is a form of micro irrigation that increases energy and water efficiency by using closed circuit drip irrigation systems designs. Modifications are made to traditional micro irrigation methods to reduce some of the problems and constraints, such as low compressor water at the end of irrigation lines. This approach has proved successful for the irrigation of fruit trees and some vegetable and field crops. Closed circuits of drip irrigation systems require about half of the water needed by sprinkler or surface irrigation. Lower operating pressures and flow rates
410  0$aResearch advances in sustainable micro irrigation ;$vVolume 7.
606   $aMicroirrigation
606   $aIrrigation farming
606   $aIrrigation water
606   $aWater-supply, Agricultural$xManagement
606   $aElectricity in agriculture
615  0$aMicroirrigation.
615  0$aIrrigation farming.
615  0$aIrrigation water.
615  0$aWater-supply, Agricultural$xManagement.
615  0$aElectricity in agriculture.
676   $a631.5/87
702   $aGoyal$b Megh Raj
702   $aMansour$b Hani A. A.
801  0$bFlBoTFG
801  1$bFlBoTFG
906   $aBOOK
912   $a9910797481003321
996   $aClosed circuit trickle irrigation design$93799256
997   $aUNINA