References
This section gives an overview of the literature related to the
library and its modeling approach. The citation rules for
publishing work that is based on this library can be found in the
project's GitHub
repository frontpage.
Literature
References referring directly to this
library
- Zimmer, D. (2020). "Robust object-oriented formulation of
directed thermofluid stream networks". In: Mathematical and
Computer Modelling of Dynamical Systems 26.3, pp. 204–233.
10.1080/13873954.2020.1757726.
- Zimmer, D., N. Weber, M. Meißner (2021). "Robust Simulation of
Stream-Dominated Thermo-Fluid Systems: From Directed to
Non-Directed Flows". In: Simulation Notes Europe, Volume
31(4):177-184.
10.11128/sne.31.tn.10581.
- Zimmer, D., M. Meißner, N. Weber (2021). "The DLR
ThermoFluidStream Library". In: 14th International Modelica
Conference, Linköping, Sweden.
https://doi.org/10.3384/ecp21181225.
- Zimmer, D., M. Meißner, N. Weber (2022). "The DLR ThermoFluid
Stream Library" Electronics 11, no.22 :3790.
https://doi.org/10.3390/electronics11223790.
- Meißner, M., D. Zimmer (2022). "Robust Modeling of Volumes for
Dynamic Simulations of Thermo-Fluid Stream Networks". In: IFAC
Papers Online Volume 55 Issue 20.
https://doi.org/10.1016/j.ifacol.2022.09.106.
Further background references on the methodology
- Zimmer, D., D. Bender, A. Pollok (2018). "Robust Modeling of
Directed Thermofluid Flows in Complex Networks". In: Proceedings of
the 2nd Japanese Modelica Conference (Tokyo, Japan).
https://elib.dlr.de/120701/1/Japan2018Robust.pdf
- Zimmer, D. (2019a). "Robust Simulation of StreamDominated
Thermo-Fluid Systems: From Unidirectional to Bidirectional
Applications". In: EUROSIM Congress (Logrono, Spain).
URL.
- Zimmer, D. (2019b). "Towards hard real-time simulation of
complex fluid networks". In: Proceedings of the 13th International
Modelica Conference (Regensburg, Germany). Linköping University
Electronic Press, Linköpings universitet, pp. 579–587.
https://ep.liu.se/ecp/157/059/ecp19157059.pdf
- Otter, M. et al. (2019). "Thermodynamic Property and Fluid
Modeling with Modern Programming Language Constructs". In:
Proceedings of the 13th International Modelica Conference
(Regensburg, Germany). Linköping University Electronic Press,
Linköpings universitet
https://ep.liu.se/ecp/157/060/ecp19157060.pdf
(c)
2020-2021, DLR, Institute of System Dynamics and Control
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.ThermofluidStream.UsersGuide.References