Analysis of demand response and wind integration in Germany's electricity market
Analysis of demand response and wind integration in Germany's electricity market
- Author(s): M. Klobasa
- DOI: 10.1049/iet-rpg.2008.0086
For access to this article, please select a purchase option:
Buy article PDF
Buy Knowledge Pack
IET members benefit from discounts to all IET publications and free access to E&T Magazine. If you are an IET member, log in to your account and the discounts will automatically be applied.
Thank you
Your recommendation has been sent to your librarian.
- Author(s): M. Klobasa 1
-
-
View affiliations
-
Affiliations:
1: Fraunhofer Institute for Systems and Innovation Research, Karlsruhe, Germany
-
Affiliations:
1: Fraunhofer Institute for Systems and Innovation Research, Karlsruhe, Germany
- Source:
Volume 4, Issue 1,
January 2010,
p.
55 – 63
DOI: 10.1049/iet-rpg.2008.0086 , Print ISSN 1752-1416, Online ISSN 1752-1424
Demand response represents an additional option for reserve capacity as first market experiences have demonstrated. An analysis for Germany shows capacities up to 3 GW and costs starting at 30 euro/MWh in the industrial sector, 8 GW in the commercial sector and more than 20 GW in the residential sector including night storage heating. Simulations of the German power system showed that using these potentials together with improved wind power predictions can limit the additional balancing costs in Germany to below 2 euro/MWh feed-in by wind turbines with 48 GW wind power in 2020.
Inspec keywords: costing; wind turbines; supply and demand; power markets; power system economics; wind power plants
Other keywords:
Subjects: Wind power plants; Power system management, operation and economics
References
-
-
1)
- Reisi: ‘Windmonitor – cumulated installed wind capacity in Germany’. Provided by ISET, Kassel available at www.windmonitor.de, accessed February 2008.
-
2)
- Gül, T., Stenzel, T.: `Variability of wind power and other renewables – management options and strategies', International Energy Agency (IEA), 2005, Paris.
-
3)
- R. Gross , P. Heptonstall , D. Anderson , T. Green , M. Leach , J. Skea . (2006) The costs and impacts of intermittency: an assessment of the evidence on the costs and impacts of intermittent generation on the British electricity network.
-
4)
- (2006) Enhancement of Demand Response – Final Status Report.
-
5)
- D. Coll-Mayor , M. Paget , E. Lightner . Future intelligent power grids: analysis of the vision in the European Union and the United States. Energy Policy , 4 , 2453 - 2465
-
6)
- G. Strbac . Demand side management: Benefits and challenges. Energy Policy , 12 , 4419 - 4426
-
7)
- Sensfuß, F.: `Assessment of the impact of renewable electricity generation on the German electricity sector – an agent-based approach', 2007, PhD, University Karlsruhe (TH).
-
8)
- C. Weber , D.J. Swider , A. Voß . (2006) Integrating electricity production from fluctuating sources – valuation of variability and unpredictability,, Guiding a least cost grid integration of RES-electricity in an extended Europe – disaggregated system operation cost and grid extension cost caused by intermittent RES-E grid integration.
-
9)
- K. Biermann , Ü. Cali , G. Füller . (2005) Entwicklung eines Rechenmodells zur Windleistungsprognose für das Gebiet des deutschen Verbundnetzes.
-
10)
- DENA: ‘Energiewirtschaftliche Planung für die Netzintegration von Windenergie in Deutschland an Land und Offshore bis zum Jahr 2020’. A report of Energiewirtschaftliches Institut, Cologne (EWI) in association with E.ON Netz, RWE Transportnetz Strom, VE Transmission, DEWI commissioned by Deutschen Energie Agentur (DENA), February 2005.
-
11)
- Klobasa, M.: `Dynamische Simulation eines Lastmanagements und Integration von Windenergie in ein Elektrizitätsnetz auf Landesebene unter regelungstechnischen und Kostengesichtspunkten', 2007, PhD, ETH Zurich, Nr. 17324.
-
12)
- EnBW Übertragungsnetze GmbH: ‘Wind generation and wind power forecast, data on balancing capacity and prices’ online available at http://www.enbw.com/content/de/netznutzer/index.jsp, accessed February 2008.
-
13)
- (2006) Benefits of demand response in electricity markets and recommendations for achieving them.
-
14)
- RWE Net: ‘Wind generation and wind power forecast, data on balancing capacity and prices’ online available at www.rwetransportnetzstrom.com, accessed February 2008.
-
15)
- Schulz, W., Bartels, M., Gatzen, C., Lindenberger, D., Müsgens, F.: `Energiereport IV – Die Entwicklung der Energiemärkte bis zum Jahr 2030', EWI/Prognos, Köln, 2005, Basel.
-
16)
- Franz, O., Wissner, M., Büllingen, F.: `Potenziale der Informations- und Kommunikations-Technologien zur Optimierung der Energieversorgung und des Energieverbrauchs (eEnergy)', Bad Honnef, Wik-Consult und Fraunhofer Verbund Energie, 2006.
-
17)
- Ernst, B.: `Entwicklung eines Windleistungsprognosemodells zur Verbesserung der Kraftwerkseinsatzplanung', 2003, PhD, Institut für Solare Energieversorgungstechnik e.V. (ISET), Kassel.
-
18)
- Pihala, H.: `Demand response potential assessment in Finnish large-scale industry', VTT Processes, 2005.
-
19)
- EON Netz: ‘Wind generation and wind power forecast, data on balancing capacity and prices’, online available at www.eon-netz.com, accessed February 2008.
-
20)
- G. Heffner , C. Goldman , B.J. Kirby , M. Kintner-Meyer . (2007) Loads providing ancillary services: review of international experience.
-
21)
- Vattenfall Transmission: ‘Wind generation and wind power forecast, data on balancing capacity and prices’ online available at transmission.vattenfall.de, accessed February 2008.
-
22)
- (2006) Assessment of demand response & advanced metering – staff report.
-
23)
- (2005) Large scale integration of wind energy in the European power supply: analysis, issues and recommendations.
-
24)
- (2005) Impact evaluation of the California statewide pricing pilot.
-
25)
- J. Voshage . Geld für nichts. Synchrones Lastmanagement bei den Stadtwerken Hannover. Energie Spektrum , 5 , 24 - 25
-
26)
- R. Gross , P. Heptonstall . The costs and impacts of intermittency: an ongoing debate ‘East is East, and West is West, and never the twain shall meet. Energy Policy , 10 , 4005 - 4007
-
1)