International Journal of Sustainable Energy Planning and Management (May 2021)

Techno-economic evaluation of electricity price-driven heat production of a river water heat pump in a German district heating system

  • Ulrich Trabert,
  • Mateo Jesper,
  • Weena Bergstraesser,
  • Isabelle Best,
  • Oleg Kusyy,
  • Janybek Orozaliev,
  • Klaus Vajen

DOI
https://doi.org/10.5278/ijsepm.6291
Journal volume & issue
Vol. 31

Abstract

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Large scale heat pumps (HP) are an important technology that will link district heating (DH) systems to the electricity sector in future smart energy systems. This paper examines the feasibility of the integration of a river water HP at a combined heat and power plant in Germany. It is part of a more extensive study about the transformation of a DH system in an urban district towards a 4th generation DH system. The focus is on operational characteristics and economic efficiency of electricity price-driven heat production. A novel method for estimating the coefficient of performance (COP) of two-stage ammonia HPs based on the difference between sink and source temperature is presented. The HP achieves a seasonal COP in the range of 3.4 to 3.7. The 15-year simulation with the software energyPRO shows that electricity-price driven operation is especially relevant for lower heat loads during the non-heating season. The correlation between volatility of electricity market price change and flexible operation is analysed. Finally, the levelized cost of heat for four designs with heat outputs of the HP from 4.7 MWth to 6.1 MWth and increasing storage sizes are compared. The results indicate that electricity costs are reduced in more flexible systems, but cost parity to the minimum dimensioning is not yet reached with the underlying economic framework conditions. However, the parameters that benefit the economic efficiency of more flexible systems are discussed.