Details

Autor(en) / Beteiligte

• Dorotić, Hrvoje
• Ban, Marko
• Pukšec, Tomislav
• Duić, Neven

Titel

Impact of wind penetration in electricity markets on optimal power-to-heat capacities in a local district heating system

Ist Teil von

• Renewable & sustainable energy reviews, 2020-10, Vol.132, p.110095, Article 110095

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2020

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• While the share of intermittent renewable energy sources in a power sector is constantly increasing, demand response technologies are becoming a crucial part of interconnected energy systems. The district heating sector has a great potential of offering such services if power-to-heat and thermal storage technologies are implemented. This is a well-known method of utilizing low-price electricity from the power market. However, power-to-heat optimal supply capacities are rarely studied with respect to different market conditions, especially from the point of view of multi-objective optimization. This paper shows an analysis of the impact of a wind production increase in a power market on optimal power-to-heat capacities in a local district heating system. To obtain these results, a district heating optimization model was developed by using linear programming, while the power market prices reduction is analysed by using historical bidding market data and shifting of the supply curve. The district heating model was created in the open-source and free programming language called Julia. The model was tested on a case study of the Nord Pool electricity market and a numerical example of a district heating system. The main outcome of this research is to show how district heating supply technologies operate in different market conditions and how they affect optimal power-to-heat and thermal storage capacities. Heat pump capacities linearly follow wind production increase in power markets. •The impact of wind penetration in electricity markets on the optimal results of a district heating system has been studied.•The increase of optimal heat pump capacity and heat production linearly follows wind penetration in power markets.•Optimal thermal storage size and heat pump capacity can be doubled for higher shares of wind energy in a power market.