Optimal Setting Sor Under Frequency Load Shedding Relays Using Mixed Integer Linear Programming

Authors

  • Meysam Jaefari Department of electrical engineering, Noshirvani University of Technology, iran, babol
  • Mohammad Alizadeh Department of electrical engineering, Imam Khomeini naval Sciences University, iran, noshahr.
  • Turaj Amraee Department of electrical and computer engineering, K.N. Toosi University of Technology, iran, tehran.
Abstract:

After occurrence of some disturbances in power system that causes the sever imbalance between generation power and electrical load, the power system frequency begins to decrease. To prevent power system frequency instability and stop the frequency decay below the power system allowable frequency limitation, load shedding schemes should be utilized by applying under frequency load shedding relays. In this paper, power system behavior is modeled as a mathematical mixed integer programing (MIP), moreover the parameters that are required for UFLS relays setting are determined optimally in order to minimize the load shedding amount throughout power system in compliance with certain restrictions. The obtained results have been verified by Simulation studies.

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

Optimal Airport Surface Traffic Planning Using Mixed-Integer Linear Programming

We describe an ongoing research effort pertaining to the development of a surface traffic automation system that will help controllers to better coordinate surface traffic movements related to arrival and departure traffic. More specifically, we describe the concept for a taxi-planning support tool that aims to optimize the routing and scheduling of airport surface traffic in such a way as to d...

full text

Application of Fuzzy Linear Programming in Optimal Load Shedding and Generation Reallocation Problem

In this article, an effective method to control a power system during emergency conditions is presented. Based on Fuzzy Linear Programming (FLP), a new technique is developed to solve the Load Shedding and Generation Reallocation (LSGR) optimization Problem. The objective function consists of terms of load curtailments and deviations in generation schedules. The constraints are power system var...

full text

Application of Fuzzy Linear Programming in Optimal Load Shedding and Generation Reallocation Problem

In this article, an effective method to control a power system during emergency conditions is presented. Based on Fuzzy Linear Programming (FLP), a new technique is developed to solve the Load Shedding and Generation Reallocation (LSGR) optimization Problem. The objective function consists of terms of load curtailments and deviations in generation schedules. The constraints are power system var...

full text

Optimal trajectory planning for trains under fixed and moving signaling systems using mixed integer linear programming

The optimal trajectory planning problem for multiple trains under fixed block signaling systems and moving block signaling systems is considered. Two approaches are proposed to solve this optimal control problem for multiple trains: the greedy approach and the simultaneous approach. In each solution approach, the trajectory planning problem is transformed into a mixed integer linear programming...

full text

Optimal trajectory planning for trains under operational constraints using mixed integer linear programming ∗

The optimal trajectory planning problem for trains under operational constraints is considered, which is essential for the success of the real-time operation and the rescheduling process for railway networks. The operational constraints caused by the timetable, real-time operation, or rescheduling often include target points and target window constraints. The approach proposed in this paper can...

full text

Optimal control of multi-vehicle-systems under communication constraints using mixed-integer linear programming

A new planning method for optimal cooperative control of heterogeneous multi-vehicle systems is investigated which enables to account for each vehicle’s nonlinear physical motion dynamics in a structured environment as well as for connectivity constraints of wireless communication. A general formulation as nonlinear hybrid optimal control problem (HOCP) is presented. A transformation technique ...

full text

My Resources

Save resource for easier access later

Save to my library Already added to my library

{@ msg_add @}


Journal title

volume 15  issue 4

pages  115- 121

publication date 2019-02

{@ msg @}

By following a journal you will be notified via email when a new issue of this journal is published.

Keywords

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023