Ugur Can Yilmaz scite author profile

Ugur Can Yilmaz

5Publications

7Citation Statements Received

69Citation Statements Given

How they've been cited

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102

Affiliations

Middle East Technical University, Northeastern University

Publications

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A Model Predictive Control for Microgrids Considering Battery Aging

Yilmaz

Sezgin

Göl

2020

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The increasing number of distributed energy resources (DERs), advancing communication and computation technologies, and reliability concerns of the customers have caused an intense interest on the concept of microgrid. Although DERs are the biggest motivation of the microgrids due to their intermittent generation characteristics, they constitute a risk for system reliability. Battery storage systems (BSSs) stand as one of the most effective solutions for this reliability problem. However, inappropriate use of BSS creates other operational problems in power systems. In order to deal with these concerns explicitly in microgrids, an optimized microgrid central controller (MGCC) is the key factor, which controls the realtime operation of a microgrid. This work proposes a model predictive control (MPC) based MGCC that will provide optimal control of the microgrid, considering economic and operational constraints. The proposed system will minimize energy cost of the microgrid by utilizing mixed integer linear programming (MILP) assuming the presence of DERs and BSS as well as the bi-directional grid connection. Moreover, the aging effect of BSS will be considered in the proposed optimization problem which will provide an up-to-date system model. The proposed method is evaluated using real load and photovoltaic (PV) generation data.

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A Robust Parallel Distributed State Estimation for Large Scale Distribution Systems

Yilmaz

Abur

2024

IEEE Trans. Power Syst.

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A Computationally Efficient Topology Identifiability Analysis of Distribution Systems

Eser

Yilmaz

Dursun

et al. 2022

Electric Power Systems Research

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A Model Predictive Control for Microgrids Considering Battery Aging

Yilmaz

Sezgin

Göl

2020

View full text Add to dashboard Cite

The increasing number of distributed energy resources (DERs), advancing communication and computation technologies, and reliability concerns of the customers have caused an intense interest in the concept of microgrid. Although DERs are the biggest motivation of the microgrids due to their intermittent generation characteristics, they constitute a risk for system reliability. Battery storage systems (BSSs) stand as one of the most effective solutions for this reliability problem. However, the inappropriate use of BSS creates other operational problems in power systems. In order to deal with these concerns explicitly in microgrids, an optimized microgrid central controller (MGCC) is the key factor, which controls the realtime operation of a microgrid. This work proposes a model predictive control (MPC) based MGCC that will provide optimal control of the microgrid, considering economic and operational constraints. The proposed system will minimize the energy cost of the microgrid by utilizing mixed-integer linear programming (MILP) assuming the presence of DERs and BSS as well as the bi-directional grid connection. Moreover, the aging effect of BSS will be considered in the proposed optimization problem which will provide an up-to-date system model. The proposed method is evaluated using real load and photovoltaic (PV) generation data.

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A General State Estimation Formulation for Three-Phase Unbalanced Power Systems

Yilmaz

Abur

2022

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Ugur Can Yilmaz

A Model Predictive Control for Microgrids Considering Battery Aging

A Robust Parallel Distributed State Estimation for Large Scale Distribution Systems

A Computationally Efficient Topology Identifiability Analysis of Distribution Systems

A Model Predictive Control for Microgrids Considering Battery Aging

A General State Estimation Formulation for Three-Phase Unbalanced Power Systems

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