International audienceThe diverse dynamic characteristics of distributed generators (DGs) make the DC microgrid to be a multi-time scale system. This paper investigates the dynamic modeling of multi-time scale DC microgrid, and a reduced-order multi-scale model (RMM) is proposed to reduce the system model complexity as well as to conserve major time scale information. The DGs with similar time constants are grouped together to form an equivalent DG, the equivalent DGs are then combined to construct RMM. The effectiveness of the proposed RMM is verified by stability analysis, numerical simulations and experimental tests
The direct integration of renewable energy resources to the utility grid is pretty tough due to thei...
Microgrids comprising multiple distributed energy resources are being increasingly integrated into e...
3noThe system stability is a paramount requirement to be attained in islanded DC microgrids. Even mo...
AC microgrid mainly comprise inverter-interfaced distributed generators (IIDGs), which are nonlinear...
AC microgrid mainly comprise inverter-interfaced distributed generators (IIDGs), which are nonlinear...
International audienceDC microgrid can obtain high efficiency due to the reduction of power processe...
Microgrids comprising multiple distributed resources are being increasingly considered for integrati...
The efficiency of DC microgrid needs investigation from a smart grid perspective, since their spread...
This dissertation proposes a hierarchy of microgrid models that can be utilized for power system ana...
Depleting fossil fuels, increasing energy demand, and need for high-reliability power supply motivat...
© 2017 IEEE. Proper modeling of inverter-based microgrids is crucial for accurate assessment of stab...
Time-scale decomposition is used to systematically produce improved reduced order models of intercon...
This chapter develops and presents a time resolution based hierarchy of microgrid models for analysi...
The concept of virtual synchronous machine (VSM) was proposed to deal with the shortcomings of low i...
Microgrids can significantly improve the utilization of distributed generation (DG) and the reliabil...
The direct integration of renewable energy resources to the utility grid is pretty tough due to thei...
Microgrids comprising multiple distributed energy resources are being increasingly integrated into e...
3noThe system stability is a paramount requirement to be attained in islanded DC microgrids. Even mo...
AC microgrid mainly comprise inverter-interfaced distributed generators (IIDGs), which are nonlinear...
AC microgrid mainly comprise inverter-interfaced distributed generators (IIDGs), which are nonlinear...
International audienceDC microgrid can obtain high efficiency due to the reduction of power processe...
Microgrids comprising multiple distributed resources are being increasingly considered for integrati...
The efficiency of DC microgrid needs investigation from a smart grid perspective, since their spread...
This dissertation proposes a hierarchy of microgrid models that can be utilized for power system ana...
Depleting fossil fuels, increasing energy demand, and need for high-reliability power supply motivat...
© 2017 IEEE. Proper modeling of inverter-based microgrids is crucial for accurate assessment of stab...
Time-scale decomposition is used to systematically produce improved reduced order models of intercon...
This chapter develops and presents a time resolution based hierarchy of microgrid models for analysi...
The concept of virtual synchronous machine (VSM) was proposed to deal with the shortcomings of low i...
Microgrids can significantly improve the utilization of distributed generation (DG) and the reliabil...
The direct integration of renewable energy resources to the utility grid is pretty tough due to thei...
Microgrids comprising multiple distributed energy resources are being increasingly integrated into e...
3noThe system stability is a paramount requirement to be attained in islanded DC microgrids. Even mo...