Daniela Guericke scite author profile

In countries with an extended use of district heating (DH), the integrated operation of DH and power systems can increase the flexibility of the power system achieving a higher integration of renewable energy sources (RES). DH operators can not only provide flexibility to the power system by acting on the electricity market, but also profit from the situation to lower the overall system cost. However, the operational planning and bidding includes several uncertain components at the time of planning: electricity prices as well as heat and power production from RES. In this publication, we propose a planning method that supports DH operators by scheduling the production and creating bids for the day-ahead and balancing electricity markets. The method is based on stochastic programming and extends bidding strategies for virtual power plants to the DH application. The uncertain factors are considered explicitly through scenario generation. We apply our solution approach to a real case study in Denmark and perform an extensive analysis of the production and trading behaviour of the DH system. The analysis provides insights on how DH system can provide regulating power as well as the impact of uncertainties and renewable sources on the planning. Furthermore, the case study shows the benefit in terms of cost reductions from considering a portfolio of units and both markets to adapt to RES production and market states.

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Model Predictive Control of Stochastic Wastewater Treatment Process for Smart Power, Cost-Effective Aeration

Stentoft

Guericke

Munk-Nielsen

et al. 2019

IFAC-PapersOnLine

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Heat load forecasting using adaptive temporal hierarchies

et al. 2021

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Frigg: Soft-linking energy system and demand response models

et al. 2022

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A novel bidding method for combined heat and power units in district heating systems

Blanco¹,

Andersen²,

Guericke³

et al. 2019

Energy Syst

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We propose a bidding method for the participation of combined heat and power (CHP) units in the day-ahead electricity market. More specifically, we consider a district heating system where heat can be produced by CHP units or heat-only units, e.g., gas or wood chip boilers. We use a mixed-integer linear program to determine the optimal operation of the portfolio of production units and storages on a daily basis. Based on the optimal production of subsets of units, we can derive the bidding prices and amounts of electricity offered by the CHP units for the day-ahead market. The novelty about our approach is that the prices are derived by iteratively replacing the production of heat-only units through CHP production. This results in an algorithm with a robust bidding strategy that does not increase the system costs even if the bids are not won. We analyze our method on a small realistic test case to illustrate our method and compare it with other bidding strategies from literature, which consider CHP units individually. The analysis shows that considering a portfolio of units in a district heating system and determining bids based on replacement of heat production of other units leads to better results.

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Load–frequency control in microgrids using target‐adjusted MPC

Banis

Guericke

Madsen

et al. 2019

IET Renewable Power Generation

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Model predictive control (MPC) has been applied in multiple ways to the load-frequency control problem. In this study, the authors illustrate and compare a target-adjusted MPC to a classical MPC formulation. The target-adjusted approach is also posed as optimal control law. The target-adjusted MPC is an alternative formulation that incorporates the system equilibrium into the control objective. The alternative derived controller can be used as substitute for classical MPCs. GELSD Lapack routine for solving least-squares problems c0 classic quadratic regulator formulation c1 target-adjusted regulator formulation

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Optimizing planning and operation of renewable energy communities with genetic algorithms

et al. 2023

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Optimising block bids of district heating operators to the day-ahead electricity market using stochastic programming

Schledorn

Guericke

Andersen³

et al. 2021

Smart Energy

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