% IMPORTANT: The following is UTF-8 encoded. This means that in the presence
% of non-ASCII characters, it will not work with BibTeX 0.99 or older.
% Instead, you should use an up-to-date BibTeX implementation like “bibtex8” or
% “biber”.
@INPROCEEDINGS{Holtwerth:1005149,
author = {Holtwerth, Alexander and Fritz, Jakob and Xhonneux, André
and Müller, Dirk},
title = {{I}nvestigation on the {I}nfluence of {R}eal-{W}orld
{W}eather and {D}emand {F}orecasts on the {M}odel
{P}redictive {C}ontrol of a {H}ydrogen-{B}attery {E}nergy
{S}torage {S}ystem; 35th},
reportid = {FZJ-2023-01337},
pages = {140-152},
year = {2022},
abstract = {Model predictive control is used in many applications due
to its capability to incorporate complex system dynamics and
long forecast horizons. Complex hybrid energy storage
systems using hydrogen and battery storage systems have
vastly different storage dynamics that necessitate a
detailed system model in combination with a long forecast
horizon. The integration of renewable energy sources
increases the importance of energy storage over long time
periods due to their inherent dependency on highly volatile
environmental energy sources. Model predictive control
determines the ideal scheduling of the different storage
systems using mathematical optimization and therefore
utilizes volatile renewable energy sources more efficiently
while decreasing the strain on the energy grid. However, the
actual energy production and demand are not available under
real-world conditions. Therefore, appropriate forecasts are
needed to ensure a high quality of the optimization results.
This work investigates the influence of open-source weather
forecasts and demand forecasting on the quality of model
predictive control of a hybrid hydrogen-battery energy
storage system with a photovoltaics (PV) parkas renewable
energy source. We use weather forecasts and real-world
measurements from the Deutsche Wetter Dienst (dwd) to
predict and calculate the energy production of a PV-park.
Moreover, we utilize data of real-world office buildings to
deduce a realistic electricity demand in combination with
autoregressive models for the demand forecast. Using the
forecast inside a simulative sensitivity analysis, we show
that the solar power forecast has the most significant
impact on the operation of the hybrid energy system. The
impact of short-time fluctuations in the PV-power
drastically decreases the performance of the model
predictive control algorithm. Furthermore, we show the
influence of the control horizon length for model predictive
control since the prediction uncertainty increases over
time. Finally, we demonstrate the mitigation of effects from
short-term fluctuation in solar power by adapting a
rule-based controller to adjust the results of the
scheduling optimization with regard to the operating points
of the storage components.},
month = {Jul},
date = {2022-07-01},
organization = {The 35th International Conference on
Efficiency, Cost, Optimization,
Simulation and Environmental Impact of
Energy Systems, Copenhagen (Denmark), 1
Jul 2022 - 3 Jul 2022},
cin = {IEK-10},
cid = {I:(DE-Juel1)IEK-10-20170217},
pnm = {1123 - Smart Areas and Research Platforms (POF4-112)},
pid = {G:(DE-HGF)POF4-1123},
typ = {PUB:(DE-HGF)8},
doi = {10.11581/dtu.00000267},
url = {https://juser.fz-juelich.de/record/1005149},
}
guest ::