Beerten, J.; Van Hertem, D. (2016). Models for HVDC grids, in: Van Hertem, D. et al.HVDC grids: for offshore and supergrid of the future. pp. 257-265. https://dx.doi.org/10.1002/9781119115243.ch12
In: Van Hertem, D.; Gomis-Bellmunt, O.; Liang, J. (Ed.) (2016). HVDC grids: for offshore and supergrid of the future. Wiley-IEEE Press: Hoboken. ISBN 978-1-118-85915-5. 528 pp. https://dx.doi.org/10.1002/9781119115243, meer
electromagnetic transient-type programs; electromechanical stability programs; high-voltage direct current grids; power electronic converters; power system computation programs; steady-state power flow programs
This chapter highlights the need for different models within power system analysis and indicates the specifics of high-voltage direct current (HVDC) grids with respect to modeling. Next to a reduction in the temporal description of the mathematical model, it is also commonplace to reduce the system model by focusing on a particular area or subsystem and reduce the representation of the rest of the grid or remote areas. As a result of these model reductions, different classes of power system programs and mathematical techniques have been developed to study power system interactions. When time domain simulations are of interest, a distinction is traditionally made between electromagnetic transient-type programs (EMT), electromechanical stability programs and steady-state power flow programs. The detailed nature of the EMT approach, combined with the specific characteristics of the power electronic systems, make EMT-type programs an interesting choice for developing the models for these systems.
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