Distribution Network Operators (DNOs) traditionally treat Low Voltage (LV) and Medium Voltage (MV) networks as two separate entities. Both voltage levels have their own set of assumptions and design policies. This paper proposes a fast load flow algorithm suitable to simulate both the LV and MV network in a single simulation. The algorithm is applied to the grid of Alliander DNO. Using this method, congestion problems in both the LV and MV grid can be determined with greater detail. Using a case study it was shown that identical customer load scenarios produce vastly differently results if the MV network is taken into account. While the absolute number of voltage problems was in the same order of magnitude, the location of these problems ov...
Research has shown that Neural Networks (NNs)are capable of accurate and quick low voltage (LV) grid...
This paper presents a simplified approach for load flow analysis in medium voltage (MV) distribution...
Distributed generation (DG), i.e. generation connected to the low and medium voltage distribution ne...
The volatility of renewable energy sources pose a significant challenge for Distribution Network Ope...
In this paper, we propose a fast linear power flow method using a constant impedance load model to s...
The increasing presence of Distributed Generation (DG) at distribution level is worsening the networ...
This chapter presents some advanced tools for low voltage (LV) network demand simulation. Such metho...
© 2017 IEEE. In the smart grid era, significant penetrations of distributed renewables not only dire...
Increasing energy prices and the greenhouse effect demand a more efficient supply of energy. More re...
Distributed generation and consequent voltage rise problem in MV distribution networks has been foun...
Providing reliable electricity to everyone is a very important matter nowadays. Both thetransmission...
By installing a battery storage system in the power grid, Distribution Network Operators (DNOs) can ...
Research has shown that Neural Networks (NNs) are capable of accurate and quick low voltage (LV) gri...
The traditional power grid map has drastically changed with the advent of renewable energy technolog...
The accelerating use of Distributed Energy Resources (DERs) and new forms of loads connected in the ...
Research has shown that Neural Networks (NNs)are capable of accurate and quick low voltage (LV) grid...
This paper presents a simplified approach for load flow analysis in medium voltage (MV) distribution...
Distributed generation (DG), i.e. generation connected to the low and medium voltage distribution ne...
The volatility of renewable energy sources pose a significant challenge for Distribution Network Ope...
In this paper, we propose a fast linear power flow method using a constant impedance load model to s...
The increasing presence of Distributed Generation (DG) at distribution level is worsening the networ...
This chapter presents some advanced tools for low voltage (LV) network demand simulation. Such metho...
© 2017 IEEE. In the smart grid era, significant penetrations of distributed renewables not only dire...
Increasing energy prices and the greenhouse effect demand a more efficient supply of energy. More re...
Distributed generation and consequent voltage rise problem in MV distribution networks has been foun...
Providing reliable electricity to everyone is a very important matter nowadays. Both thetransmission...
By installing a battery storage system in the power grid, Distribution Network Operators (DNOs) can ...
Research has shown that Neural Networks (NNs) are capable of accurate and quick low voltage (LV) gri...
The traditional power grid map has drastically changed with the advent of renewable energy technolog...
The accelerating use of Distributed Energy Resources (DERs) and new forms of loads connected in the ...
Research has shown that Neural Networks (NNs)are capable of accurate and quick low voltage (LV) grid...
This paper presents a simplified approach for load flow analysis in medium voltage (MV) distribution...
Distributed generation (DG), i.e. generation connected to the low and medium voltage distribution ne...