by Vita, Vasiliki, Lazarou, Stavros, Christodoulou, Christos A. and Seritan, George
Abstract:
This paper proposes a calculation algorithm that creates operational points and evaluates the performance of distribution lines after reinforcement. The operational points of the line are probabilistically determined using Monte Carlo simulation for several objective functions for a given line. It is assumed that minimum voltage at all nodes has to be balanced to the maximum load served under variable distributed generation production, and to the energy produced from the intermittent renewables. The calculated maximum load, which is higher than the current load, is expected to cover the expected needs for electric vehicles charging. Following the proposed operational patterns, it is possible to have always maximum line capacity. This method is able to offer several benefits. It facilitates of network planning and the estimation of network robustness. It can be used as a tool for network planners, operators and large users. It applies to any type of network including radial and meshed.
Reference:
On the Determination of Meshed Distribution Networks Operational Points after Reinforcement (Vita, Vasiliki, Lazarou, Stavros, Christodoulou, Christos A. and Seritan, George), In Applied Sciences, volume 9, 2019.
Bibtex Entry:
@article{app9173501,
AUTHOR = {Vita, Vasiliki and Lazarou, Stavros and Christodoulou, Christos A. and Seritan, George},
TITLE = {On the Determination of Meshed Distribution Networks Operational Points after Reinforcement},
JOURNAL = {Applied Sciences},
VOLUME = {9},
YEAR = {2019},
bibyear = {2019},
NUMBER = {17},
ARTICLE-NUMBER = {3501},
URL = {https://www.mdpi.com/2076-3417/9/17/3501},
ISSN = {2076-3417},
ABSTRACT = {This paper proposes a calculation algorithm that creates operational points and evaluates the performance of distribution lines after reinforcement. The operational points of the line are probabilistically determined using Monte Carlo simulation for several objective functions for a given line. It is assumed that minimum voltage at all nodes has to be balanced to the maximum load served under variable distributed generation production, and to the energy produced from the intermittent renewables. The calculated maximum load, which is higher than the current load, is expected to cover the expected needs for electric vehicles charging. Following the proposed operational patterns, it is possible to have always maximum line capacity. This method is able to offer several benefits. It facilitates of network planning and the estimation of network robustness. It can be used as a tool for network planners, operators and large users. It applies to any type of network including radial and meshed.},
DOI = {10.3390/app9173501},
call={preparatory},
acronym={DECAS},
fulltitle={Dealing with the emerging Electric energy distribution Challenges using Advanced Simulation capabilities},
pi={Lambros Ekonomou},
affiliation={School of Pedagogical and Technological Education},
researchfield={Engineering}
}