Your search keyword '"Joorabian, Mahmood"' showing total 3 results

1. Fault Location in Double-Circuit Transmission Lines Compensated by Generalized Unified Power Flow Controller (GUPFC) Based on Synchronous Current and Voltage Phasors

Author

Abasi, Mahyar, Saffarian, Alireza, Joorabian, Mahmood, and Seifossadat, Seyyed Ghodratollah

Abstract

This article proposes a fault location algorithm for double-circuit transmission lines compensated by a generalized unified power flow controller (GUPFC) in the phasor analysis domain. The suggested algorithm is able to locate the fault point in three stages at each circuit of a double-circuit line equipped with a GUPFC between two terminals. The first stage determines the faulty section with respect to the location of the GUPFC using the positive sequence voltages of two terminals of the line. In the second stage, the faulty circuit among the circuits of the double-circuit line is identified through analysis of sequence components of the line currents at the terminals. After determining the faulty section and faulty circuit of the line, the fault location is calculated at the third stage with high accuracy based on the analysis of synchronous current and voltage phasors that rule the circuitry equations in the GUPFC compensated double-circuit transmission line. Finally, the equations required for determining the fault location for 11 types of faults in these lines are presented based on the distributed parameter model of the line in sequence components considering the coupling between the two lines. The considered GUPFC, based on the detailed model method, is modeled along with the test network in MATLAB/Simulink. Moreover, the presented algorithm is programmed in MATLAB software for evaluation and test. The obtained simulation results verify the accurate performance of the presented algorithm under different fault conditions.

Published

2021

2. A sustainable framework for resilience enhancement of integrated energy systems in the presence of energy storage systems and fast-acting flexible loads

Author

Javadi, Ehsan Alasvand, Joorabian, Mahmood, and Barati, Hassan

Abstract

•Presenting a bi-level model to enhance the resilience of interconnected networks.•Planning the networks with observance of optimal schedules of the energy hubs.•Considering the uncertainties of load, RESs, EVs, and participation in DR programs.•Enhancing the system resilience by P2G technologies and gas storage systems.•Reducing forced load shedding of the industrial hubs by dispatching of EVs.•Reducing forced load shedding of industrial hubs by applying DLC ​​program.

Published

2022

3. Transmission Service Cost Calculation with Power Loss and Congestion Considerations

Author

Shooshtari, Alireza, Joorabian, Mahmood, and Milani, Armin

Abstract

One of the most challenging issues of transmission grids in restructured power networks is determining the real transmission service cost. In this paper, a method for calculating the transmission service in different grids is presented. In the proposed method, the cost of power loss and congestion of transmission services are considered. Using this integrated model, the strengths and weaknesses of a power grid can be straightforwardly analyzed. All simulations have been done on IEEE nine-bus test system. Computing the transmission service cost, the next step is to optimize power loss and congestion using NSGA-II which is a two objective genetic algorithm method in which optimal power flow is implemented and power loss and congestion are considered as objective functions. Numerical results prove the effectiveness of the proposed optimizing method in which decreasing the cost of power loss and congestion have a direct effect on improving the quality of transmission services.

Published

2012