Physical Approach to Short-Term Wind Power Prediction [electronic resource] / by Matthias Lange, Ulrich Focken.Material type: TextLanguage: English Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 2006Description: XII, 208 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783540311065Subject(s): Engineering | Meteorology | Thermodynamics | Physical geography | Engineering | Renewable Energy Sources | Meteorology/Climatology | Mechanics, Fluids, Thermodynamics | Electrical Power Generation and Transmission | Environmental PhysicsAdditional physical formats: Printed edition:: No titleDDC classification: 621.042 LOC classification: TJ807-830Online resources: Click here to access online
Overview of Wind Power Prediction Systems -- Foundations of Physical Prediction Models -- Physical Wind Power Prediction Systems -- Data -- Assessment of the Prediction Accuracy -- Correction of Wind Profiles Due to Thermal Stratification -- Assessment of Wind Speed Dependent Prediction Error -- Relating the Forecast Error to Meteorological Situations -- Smoothing Effects in Regional Power Prediction -- Outlook.
Triggered by a discussion on the nature of future electricity supplies, wind - ergy utilisation has boomed dramatically, ?rst in the United States of America and Denmark and later in Germany and Spain. Thanks to state subsidies, it has within 15 years overtaken the volume of the classic renewable hydro-power, and today it accountsforabout5%ofelectricitygeneration. Twofactorssetoffthisdevelopment:anawarenessofthelimitedavailabilityof fossilfuelsandtherecognitionthatinthe19thand20thcenturiesthemassiverelease of fossil CO had kicked off a gigantic climate experiment whose results remain 2 unpredictable. The discussion on the side effects of the wind energy boom, such asoccupationoflandandthechallengespresentedbyintegrationintoconventional electricity generation systems, frequently distract attention from the real goals and bene?ts of this technology. These are establishing an energy sector that will, in the shortterm,reduceCO emissionsandtheexploitationof?niteresourcesand,inthe 2 longterm,createanunlimitedsustainableenergysupply. Because fossil reserves are relatively easy to exploit, a system developed that could hardly be more convenient. It makes electric power available in large quan- tiesatmoderatepricesandinawaythatiseasytoplan.Thetaskofthepowerutility is essentially limited to “uncritically” adjusting the supply from central power s- tionstothedemandfromconsumers.Alow-CO sustainableenergysectordemands 2 differentstandards.Windandsolarpowerhaveahighpotential,buttheyaresubject tohighnatural?uctuationsand,ingeneral,areconnectedtotheelectricitygridina decentralway.Theshareoffuturestoragetechnologiessuchashydrogentechnology willbeassmallaspossibleforreasonsofef?ciencyandcost. So,future-compatibleelectricitygenerationwillcomprisemanydifferent,partly innovative components, which also demands a considerable research and devel- menteffort.Ontheonehand,thereisthe?uctuatinginputfromrenewablesources, and on the other, electricity consumption that must to a certain extent be adjusted to supply by means of intelligent solutions. In between, to a declining extent, VI Foreword modernconventionalenergyproducers,suchascoalandnaturalgaspowerstations, areallbroughttogetherwithagreatdealoftechnicalingenuityintheformofcontrol strategiesandinformation?ows.