This project proposes a probabilistic load flow approach based on Gaussian process regression. The objective is to evaluate the power flow solutions in the presence of wind farms with uncertain wind energy outputs. The technique rely on input information such as prior and point values to compute posterior predictive distribution. The results are compared with that of Monte-Carlo simulation in terms of the accuracy and the computational time. Numerical simulations with IEEE 30-bus system demonstrate the feasibility of the proposed method.Bachelor of Engineering (Electrical and Electronic Engineering
In a power system with high penetration of variable Renewable Energy Sources (vRES), the high uncert...
Increasing decentralized solar and wind power production, introduces uncertainty in the electricity ...
Probabilistic load flow is becoming a more useful and needed power system analysis technique with th...
This chapter deals with probabilistic approaches for the steady-state analysis (probabilistic load f...
A method for solving a probabilistic power flow that deals with the uncertainties of (i) wind genera...
The load flow problem is fundamental to characterize the equilibrium behavior of a power system. Unc...
This paper proposes a method for solving a probabilistic load flows that takes into account the unce...
In this letter, we present a novel Gaussian Process Learning-based Probabilistic Optimal Power Flow ...
International audienceExploitation of renewable energy sources in power networks, especially wind en...
This paper reviews the development of the probabilistic load flow (PLF) techniques. Applications of ...
Abstract—The environmental need to curb distribution network losses and utilize renewable energy sou...
At present among renewable sources the wind and solar plants have the most significant portion of po...
The installation of wind power generation in the Netherlands has been increased drastically over yea...
Distribution networks are undergoing radical changes due to the high level of penetration of dispers...
Rising penetration of renewable resources in power systems through integration of distributed genera...
In a power system with high penetration of variable Renewable Energy Sources (vRES), the high uncert...
Increasing decentralized solar and wind power production, introduces uncertainty in the electricity ...
Probabilistic load flow is becoming a more useful and needed power system analysis technique with th...
This chapter deals with probabilistic approaches for the steady-state analysis (probabilistic load f...
A method for solving a probabilistic power flow that deals with the uncertainties of (i) wind genera...
The load flow problem is fundamental to characterize the equilibrium behavior of a power system. Unc...
This paper proposes a method for solving a probabilistic load flows that takes into account the unce...
In this letter, we present a novel Gaussian Process Learning-based Probabilistic Optimal Power Flow ...
International audienceExploitation of renewable energy sources in power networks, especially wind en...
This paper reviews the development of the probabilistic load flow (PLF) techniques. Applications of ...
Abstract—The environmental need to curb distribution network losses and utilize renewable energy sou...
At present among renewable sources the wind and solar plants have the most significant portion of po...
The installation of wind power generation in the Netherlands has been increased drastically over yea...
Distribution networks are undergoing radical changes due to the high level of penetration of dispers...
Rising penetration of renewable resources in power systems through integration of distributed genera...
In a power system with high penetration of variable Renewable Energy Sources (vRES), the high uncert...
Increasing decentralized solar and wind power production, introduces uncertainty in the electricity ...
Probabilistic load flow is becoming a more useful and needed power system analysis technique with th...