Verfügbarkeit: Technical and economic potential of a micro-hydrokinetic river turbine

Technical and economic potential of a micro-hydrokinetic river turbine: = Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine

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Bibliographische Detailangaben
Beteilige Person:	Norta, David Peter Benjamin (VerfasserIn)
Format:	Hochschulschrift/Dissertation Buch
Sprache:	Englisch
Veröffentlicht:	Aachen [2018]
Schlagwörter:	Wasserturbine Potenzialanalyse Fluss Hochschulschrift
Links:	https://d-nb.info/1204156123/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032625248&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	XVIII, 196 Seiten Illustrationen

Internformat

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246	1	3	\|a Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine
246	1	1	\|a Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine
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300			\|a XVIII, 196 Seiten \|b Illustrationen
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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS KURZFASSUNG ................................................................................................................. ILL ABSTRACT ......................................................................................................................... IV TABLE OF CONTENTS ........................................................................................................... V LIST OF ABBREVIATIONS AND FORMULAS .......................................................................... XI 1 INTRODUCTION ............................................................................................................ 1 1.1 MOTIVATION ....................................................................................................................... 1 1.1.1 CLIMATE CHANGE ......................................................................................................... 2 1.1.2 ELECTRICITY GENERATION FROM RENEWABLE RESOURCES ................................................ 3 1.2 GOAL - IMPROVEMENT OF AN INNOVATIVE HYDROKINETIC MICRO TURBINE .......................... 5 1.3 APPROACH ........................................................................................................................6 1.3.1 TURBINE PROTOTYPE DEVELOPMENT ............................................................................... 6 1.3.2 NEW OSCILLATING FOIL CONTROL MECHANISM ............................................................... 8 1.3.3 POTENTIAL ESTIMATION FOR THE TURBINE PROTOTYPE ........................................................ 9 1.3.4 TECHNICAL AND ECONOMIC POTENTIAL ESTIMATION FOR THE TURBINE PROTOTYPE IN A MODEL POWER SYSTEM ............................................................................................................... 9 1.3.5 TRANSFER OF THE HYDROKINETIC POTENTIAL ESTIMATION TO OTHER REGIONS ................. 10 2 STATE OF THE ART AND RESEARCH ............................................................................. 11 2.1 RESEARCH OF HYDROKINETIC TURBINES ......................................................................... 11 2.1.1 HYDROKINETIC ROTATING BLADE TURBINE .................................................................. 12 2.1.2 HYDROKINETIC OSCILLATING TURBINES ........................................................................ 17 2.1.3 ADVANTAGES AND DISADVANTAGES OF THE HYDROKINETIC TURBINES COMPARED TO ROTATING PRESSURE TURBINES ...................................................................................................... 19 2.1.4 RELEVANT PARAMETERS DESCRIBING THE TURBINE ........................................................ 22 2.2 POWER SYSTEMS WITH HIGH RENEWABLE PENETRATION ................................................... 23 2.2.1 CHALLENGES OF FUTURE POWER SYSTEMS ..................................................................... 23 2.2.2 THE EUROPEAN POWER SYSTEM .................................................................................. 24 2.2.3 THE LUXEMBOURG POWER SYSTEM ............................................................................ 26 2.2.4 THIRD AND FOURTH WORLD POWER SUPPLY ................................................................. 30 2.2.5 RELEVANT SYSTEM PARAMETERS ................................................................................... 34 2.3 RIVER SYSTEMS ............................................................................................................... 34 2.3.1 PARAMETER BASED DESCRIPTION OF RIVERS ..................................................................34 2.3.2 THE RIVERS OF LUXEMBOURG ..................................................................................... 37 2.3.3 RELEVANT HYDROLOGICAL PARAMETERS ........................................................................ 38 2.3.4 THIRD AND FOURTH WORLD SPECIFICATIONS .................................................................39 3 METHODOLOGY AND PROCEDURE ............................................................................. 40 3.1 THEORETICAL DEVELOPMENT OF THE TURBINE ....................................................................40 3.1.1 DESIGN OF THE PROTOTYPE ......................................................................................... 40 3.1.2 CFD DIMENSIONING OF THE TURBINE ........................................................................ 43 3.1.3 OPTIMAL MOTION OF THE HYDROFOIL ........................................................................... 48 3.2 EXPERIMENTAL TESTING OF THE TURBINE ......................................................................... 49 3.2.1 EXPERIMENTAL SETUP - DRY OPERATION ...................................................................... 50 TABLE OF CONTENTS VII 3.2.2 EXPERIMENTAL SETUP - WET OPERATION .................................................................... 51 3.2.3 PROPOSED ANALYSIS ................................................................................................... 55 3.3 POTENTIAL ESTIMATION OF THE TURBINE IN RENEWABLE ENERGY SYSTEM ..................... 55 3.3.1 DEVELOPMENT OF THE ENERGY SYSTEM OF LUXEMBOURG ........................................... 56 3.3.2 THE COST-OPTIMAL RURAL POWER SUPPLY ................................................................. 60 3.3.3 POTENTIAL ESTIMATION FOR RENEWABLE ENERGIES ....................................................... 67 4 RESULTS ................................................................................................................... 72 4.1 HYDROKINETIC TURBINE ................................................................................................... 72 4.1.1 THE FINAL TURBINE PROTOTYPE .................................................................................. 72 4.1.2 EXPERIMENTAL PROTOTYPE TESTING SETUP .................................................................. 81 4.1.3 OPTIMAL MOTION OF THE HYDROFOIL - CFD RESULTS ................................................... 82 4.1.4 PERFORMANCE OF TURBINE IN THE HYDRAULIC FLUME ...................................................94 4.1.5 COMPARISON BETWEEN EXPERIMENTAL- AND DESIGN STUDY RESULTS .......................... 97 4.1.6 INFLUENCE OF DEBRIS, SEDIMENTS AND FISH ON THE TURBINE .................................... 101 4.1.7 DISCUSSION OF MODEL EFFECTS AND ERRORS .............................................................. 102 4.1.8 ACHIEVEMENTS - HYDROKINETIC TURBINE ............................................................... 104 4.2 SCENARIOS FOR A RENEWABLE LUXEMBOURGISH POWER SUPPLY ................................... 105 4.2.1 DIFFERENT RENEWABLE ENERGY SCENARIO RESULTS FOR LUXEMBOURG ........................ 105 4.2.2 EVALUATION OF THE POTENTIAL OF THE HYDROKINETIC TURBINES IN LUXEMBOURG ....... 109 4.2.3 TRANSFERABLE RESULTS OF THE POTENTIAL STUDY FOR THE THIRD AND FOURTH WORLD ..116 4.2.4 DISCUSSION OF MODEL EFFECTS AND ERRORS .............................................................. 124 4.2.5 ACHIEVEMENTS - RENEWABLE GENERATION POTENTIAL STUDY .................................... 130 5 SUMMARY AND OUTLOOK ....................................................................................... 136 5.1 TECHNICAL EVALUATION OF THE TURBINE CONCEPT ......................................................... 136 5.1.1 ADVANTAGES AND DISADVANTAGES OF THE OPERATION PRINCIPLE ............................... 136 5.1.2 DEPENDENCE ON HYDROLOGICAL PARAMETERS ............................................................ 139 5.2 ECONOMIC EVALUATION OF THE TURBINE CONCEPT ......................................................... 139 5.2.1 RENEWABLE GENERATION POTENTIAL IN LUXEMBOURG ............................................... 139 5.2.2 APPLICATION IN DEVELOPED AND CENTRAL EUROPEAN COUNTRIES ............................... 140 5.2.3 APPLICATION IN DEVELOPING COUNTRIES ................................................................... 142 5.3 CRITICAL DISCUSSION OF THE METHODICAL FRAMEWORK AND ASSUMPTION ..................... 142 5.3.1 THE HYDROKINETIC TURBINE ...................................................................................... 142 5.3.2 THE ENERGY SYSTEM ................................................................................................ 143 5.4 OUTLOOK ....................................................................................................................... 144 REFERENCES .................................................................................................................... 148 LIST OF FIGURES .............................................................................................................. 158 LIST OF TABLES ................................................................................................................ 167 APPENDIX ...................................................................................................................... 170 ACKNOWLEDGEMENT ....................................................................................................... 194 DECLARATION OF ORIGINALITY .......................................................................................... 196
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indexdate	2024-12-20T19:13:12Z
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language	English
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spellingShingle	Norta, David Peter Benjamin Technical and economic potential of a micro-hydrokinetic river turbine = Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine Wasserturbine (DE-588)4189292-6 gnd Potenzialanalyse (DE-588)4229979-2 gnd Fluss (DE-588)4131972-2 gnd
subject_GND	(DE-588)4189292-6 (DE-588)4229979-2 (DE-588)4131972-2 (DE-588)4113937-9
title	Technical and economic potential of a micro-hydrokinetic river turbine = Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine
title_alt	Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine
title_auth	Technical and economic potential of a micro-hydrokinetic river turbine = Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine
title_exact_search	Technical and economic potential of a micro-hydrokinetic river turbine = Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine
title_full	Technical and economic potential of a micro-hydrokinetic river turbine = Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine vorgelegt von David Peter Benjamin Norta
title_fullStr	Technical and economic potential of a micro-hydrokinetic river turbine = Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine vorgelegt von David Peter Benjamin Norta
title_full_unstemmed	Technical and economic potential of a micro-hydrokinetic river turbine = Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine vorgelegt von David Peter Benjamin Norta
title_short	Technical and economic potential of a micro-hydrokinetic river turbine
title_sort	technical and economic potential of a micro hydrokinetic river turbine technisches und wirtschaftliches potenzial einer mikrohydrokinetischen flussturbine
title_sub	= Technisches und wirtschaftliches Potenzial einer mikrohydrokinetischen Flussturbine
topic	Wasserturbine (DE-588)4189292-6 gnd Potenzialanalyse (DE-588)4229979-2 gnd Fluss (DE-588)4131972-2 gnd
topic_facet	Wasserturbine Potenzialanalyse Fluss Hochschulschrift
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