The need for flexibility and curtailable resources is crucial for ensuring the healthy operation of future distribution networks (DN). In this work, we propose a network-state driven framework that distribution system operators (DSOs) can utilize for activating flexible and curtailable resources for alleviating network voltage and thermal issues, while accounting for network voltage and current imbalances. This approach assumes the availability of dynamic network state information and uses nodal sensitivities for calculating a flexibility activation signal (FAS). The signal design is motivated by volt-Var and volt-watt inverter control, and thus bounded. The FAS also considers network voltage and current imbalances and incentivizes activati...
The addition of new distributed energy resources, such as electric vehicles, photovoltaics, and stor...
Flexibility needs assessment (FNA) refers to the amount of flexibility DSO needs to plan or procure ...
In the last years, renewable energy sources have been changing the power system by making it more ch...
A curtailable and flexible resource activation framework for solving distribution network (DN) volta...
Traditionally, the distribution system operator (DSO) relied on a fit-and-forget network design. How...
This paper presents a three-phase optimal power flow (TOFP) based method for mitigating the voltage ...
Traditional distribution network operators are gradually being transformed to system operators, usin...
The asymmetric integration of distributed generators (DGs) exacerbates the three-phase unbalanced co...
© 2020 Michael Ziguang LiuThe rapid growth of renewable distributed generation (DG) has introduced u...
With the increased integration of distributed energy units (DERs) on the MV/LV level, operators of d...
© 2010-2012 IEEE. This paper presents a method to achieve optimal active and reactive power contribu...
Power system voltage control has traditionally been the responsibility of transmission-connected re...
This article proposes a new approach to the operation of unbalanced Active Distribution Systems (ADS...
With the increase of intermittent and not programmable generation from clean resources and of new de...
Voltage and current imbalance have adverse impacts on power systems such as power loss increase, com...
The addition of new distributed energy resources, such as electric vehicles, photovoltaics, and stor...
Flexibility needs assessment (FNA) refers to the amount of flexibility DSO needs to plan or procure ...
In the last years, renewable energy sources have been changing the power system by making it more ch...
A curtailable and flexible resource activation framework for solving distribution network (DN) volta...
Traditionally, the distribution system operator (DSO) relied on a fit-and-forget network design. How...
This paper presents a three-phase optimal power flow (TOFP) based method for mitigating the voltage ...
Traditional distribution network operators are gradually being transformed to system operators, usin...
The asymmetric integration of distributed generators (DGs) exacerbates the three-phase unbalanced co...
© 2020 Michael Ziguang LiuThe rapid growth of renewable distributed generation (DG) has introduced u...
With the increased integration of distributed energy units (DERs) on the MV/LV level, operators of d...
© 2010-2012 IEEE. This paper presents a method to achieve optimal active and reactive power contribu...
Power system voltage control has traditionally been the responsibility of transmission-connected re...
This article proposes a new approach to the operation of unbalanced Active Distribution Systems (ADS...
With the increase of intermittent and not programmable generation from clean resources and of new de...
Voltage and current imbalance have adverse impacts on power systems such as power loss increase, com...
The addition of new distributed energy resources, such as electric vehicles, photovoltaics, and stor...
Flexibility needs assessment (FNA) refers to the amount of flexibility DSO needs to plan or procure ...
In the last years, renewable energy sources have been changing the power system by making it more ch...