[[abstract]]This study proposes a novel network sensitivity-based approach to solving complex power flow calculation problems in real time. A new sensitivity factor, named Jacobian-based distribution factor (JBDF), is used for the calculation of active and reactive power flow in transmission systems. It is derived from the Jacobian matrix of the base case Newton–Raphson power flow solution, and kept constant during real-time line flow calculation. Unlike well-known distribution factors, such as generation shift distribution factor (GSDF), generalised generation shift distribution factor (GGDF) and Z-bus distribution factor (ZBD), this approach reflects changes in complex injection power. Changes in load conditions from base case loads, with...
In this paper, we propose a fast linear power flow method using a constant impedance load model to s...
The paper describes a newly developed algorithm for power flow solution based on a complex admittanc...
Active distribution networks will meet new challenges in voltage and congestion control due to the h...
[[abstract]]This paper proposes a new sensitivity factor to solve the real-time line flow calculatio...
Complex power flow distribution factors, which relate line complex power flows to the bus injected c...
[[abstract]]A new sensitivity factor which is called ZBUS distribution factor (ZBDF) to calculate ac...
Power transfer distribution factor, (PTDF) is a useful factor for sensitivity analysis of line flows...
Sensitivity Analysis has been widely used for voltage control of power grids. Typically, the sensiti...
Sensitivity Analysis plays a significant role in voltage prediction and control of power networks. H...
Real-time operation, analysis and control of active distribution systems (DSs) mainly rely on accura...
An influx of technology has changed the traditional, top-down approach to electric power systems,int...
Despite the uncertainties on the generation end and the consumption end, the transmission network th...
Addressed to the $N-k_{1}-k_{2}$ cascading outages, it is computationally burdensome for the reliabl...
The restructuring of energy markets to provide free access to the networks and the consequent increa...
The modern Distribution Systems (DS) require for accurate and fast Power Flow (PF) algorithms as a b...
In this paper, we propose a fast linear power flow method using a constant impedance load model to s...
The paper describes a newly developed algorithm for power flow solution based on a complex admittanc...
Active distribution networks will meet new challenges in voltage and congestion control due to the h...
[[abstract]]This paper proposes a new sensitivity factor to solve the real-time line flow calculatio...
Complex power flow distribution factors, which relate line complex power flows to the bus injected c...
[[abstract]]A new sensitivity factor which is called ZBUS distribution factor (ZBDF) to calculate ac...
Power transfer distribution factor, (PTDF) is a useful factor for sensitivity analysis of line flows...
Sensitivity Analysis has been widely used for voltage control of power grids. Typically, the sensiti...
Sensitivity Analysis plays a significant role in voltage prediction and control of power networks. H...
Real-time operation, analysis and control of active distribution systems (DSs) mainly rely on accura...
An influx of technology has changed the traditional, top-down approach to electric power systems,int...
Despite the uncertainties on the generation end and the consumption end, the transmission network th...
Addressed to the $N-k_{1}-k_{2}$ cascading outages, it is computationally burdensome for the reliabl...
The restructuring of energy markets to provide free access to the networks and the consequent increa...
The modern Distribution Systems (DS) require for accurate and fast Power Flow (PF) algorithms as a b...
In this paper, we propose a fast linear power flow method using a constant impedance load model to s...
The paper describes a newly developed algorithm for power flow solution based on a complex admittanc...
Active distribution networks will meet new challenges in voltage and congestion control due to the h...