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Hydropower Economics
Kategorie
Beschreibung
036a
XD-US
037b
eng
087q
978-1-4899-7518-8
100
Førsund, Finn R.
331
Hydropower Economics
403
2nd ed. 2015
410
Boston, MA ; s.l.
412
Springer US
425
2015
425a
2015
433
Online-Ressource (XVI, 326 p, online resource)
451
International Series in Operations Research & Management Science ; 217
501
Description based upon print version of record
517
IntroductionWater as a Natural Resource -- Hydropower with Constraints -- Multiple Producers -- Mix of Thermal and Hydropower Plants -- Trade -- Intermittent Energy -- Pumped-storage Hydroelectricity -- Uncertainty -- Transmission -- Market Power -- Summary and Conclusions.
527
Druckausg.ISBN: 978-148-997-518-8
540a
ISBN 978-1-4899-7519-5
700
|KJMD
700
|KJT
700
|BUS049000
700b
|658.40301
700c
|HD30.23
700g
1271587181 ZI 6800
750
Introduction -- Water as a Natural Resource -- Hydropower with Constraints -- Multiple Producers -- Mix of Thermal and Hydropower Plants -- Trade -- Intermittent Energy -- Pumped-storage Hydroelectricity -- Uncertainty -- Transmission -- Market Power -- Summary and Conclusions.
753
Hydropower Economics provides qualitative economic analyses of how to utilize stored water in a hydropower system with fixed generating capacities. The problem is dynamic because water used today to generate electric power may alternatively be used tomorrow. The distinctive feature of the book is to provide a social planning perspective on optimal use of water. This is a prerequisite for understanding and evaluating newly established electricity markets. The dynamic nature of hydropower production, the high number of units involved, and the inherent stochastic nature of inflow of water make optimization problems quite difficult technically to solve. In the engineering literature complex stochastic dynamic programming models are used and solution algorithms developed for real-life data, and numerical solutions provided. In this book a much more simplified mathematical approach suited to obtain qualitative conclusions is followed. Standard nonlinear programming models for discrete time are used and the Kuhn–Tucker conditions employed extensively for qualitative interpretations. A special graphical presentation, termed a bathtub diagram, is developed for two-period illustration. The enlarged edition covers phasing-in of intermittent energy (run-of-the-river, wind and solar) and the economics of pumped-storage electricity.
902s
209164964 Wirtschaftswissenschaften
902s
209789875 Elektrische Energie
902s
209140666 Umweltökonomie
902s
210058226 Wasserkraft
902s
209155213 Wasserwirtschaft
012
425835936
081
Førsund, Finn R.: Hydropower Economics
100
Springer E-Book
125a
Elektronischer Volltext - Campuslizenz
655e
$uhttp://dx.doi.org/10.1007/978-1-4899-7519-5
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