Abstract
The nature and characteristics of distribution systems are changing continuously with the increased penetration of distributed energy resources. With this, the need for examining the transmission and distribution (T&D) interaction while assessing the voltage security has become significant. In much of the analysis and practices reported so far, voltage security assessment studies are performed separately for T&D systems. Thus, a transmission system operator (TSO) is oblivious to the operations and controls taking place at the distribution system (DS) level. Some of the recent studies examine the impact of an active DS on the voltage security assessment of future power systems. However, the effect of various factors like voltage dependency of loads, reactive power capability of renewable energy sources (RES), location of distributed generation units, and network losses on the voltage stability margin (VSM) of transmission system has not been reported comprehensively so far. This paper first theoretically examines the impact of these factors on VSM. Then, to get the more realistic results for VSM, continuation power flow (CPF) is performed in a coordinated fashion including both T&D systems. The simulations show that considering losses, load characteristics dependency on voltage and reactive power limits of RES in a DS for transmission voltage security assessment studies lead to a more rational outcome than when neglected.
Highlights
The power system is generally demarcated as transmission system (TS) and distribution system (DS), that are connected to each other at certain interfacing nodes
This paper fills the gap of proposing various methodologies for performing voltage security assessment studies in a coordinated fashion among transmission and distribution (T&D) system operators and the parameters needed to be considered in these studies to evaluate voltage stability margin (VSM), and strengthening the concept of transmission system operator (TSO)-distribution system operator (DSO) coordinated studies
Remark 2: The discussion so far reveals that the amount of power drawn by DS from TS will change the VSM of system and the primary reasons for the same are: (a) net loading that varies due to the DS load dependency on voltage (b) renewable energy (RE) penetration level (c) the role of renewable energy sources (RES)’s reactive power capability (d) network losses that vary with distributed generation (DG) placement and line parameters
Summary
The power system is generally demarcated as transmission system (TS) and distribution system (DS), that are connected to each other at certain interfacing nodes. It becomes necessary to study the other DS associated aspects that can affect the voltage security assessment of an integrated T&D system and have not been considered in the past These factors remain unnoticed by the TSO while performing CPF and that can result in misleading VSM values. This paper fills the gap of proposing various methodologies for performing voltage security assessment studies in a coordinated fashion among T&D system operators and the parameters needed to be considered in these studies to evaluate VSM, and strengthening the concept of TSO-DSO coordinated studies. There are many other DS associated aspects that can affect the voltage security assessment of an integrated TS and DS, and have not been considered in the past
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