This paper presents the need to operate the power
system economically and with optimum levels of voltages has
further led to an increase in interest in Distributed
Generation. In order to reduce the power losses and to improve
the voltage in the distribution system, distributed generators
(DGs) are connected to load bus. To reduce the total power
losses in the system, the most important process is to identify
the proper location for fixing and sizing of DGs. It presents a
new methodology using a new population based meta heuristic
approach namely Artificial Bee Colony algorithm(ABC) for
the placement of Distributed Generators(DG) in the radial
distribution systems to reduce the real power losses and to
improve the voltage profile, voltage sag mitigation. The power
loss reduction is important factor for utility companies because
it is directly proportional to the company benefits in a
competitive electricity market, while reaching the better power
quality standards is too important as it has vital effect on
customer orientation. In this paper an ABC algorithm is
developed to gain these goals all together. In order to evaluate
sag mitigation capability of the proposed algorithm, voltage
in voltage sensitive buses is investigated. An existing 20KV
network has been chosen as test network and results are
compared with the proposed method in the radial distribution
system.
%0 Journal Article
%1 ksivaramududrmpadmalalitha2014optimal
%A K. Siva Ramudu, Dr. M. Padma Lalitha, P. Suresh Babu
%D 2014
%E Das, Dr. Vinu V
%J ACEEE International Journal of Electrical and Power Engineering
%K Distributed_generation
%N 1
%P 6
%T Optimal Placement of DG for Loss Reduction and
Voltage Sag Mitigation in Radial Distribution Systems
using ABC Algorithm
%U http://searchdl.org/public/journals/2014/IJEPE/5/1/4.pdf
%V 5
%X This paper presents the need to operate the power
system economically and with optimum levels of voltages has
further led to an increase in interest in Distributed
Generation. In order to reduce the power losses and to improve
the voltage in the distribution system, distributed generators
(DGs) are connected to load bus. To reduce the total power
losses in the system, the most important process is to identify
the proper location for fixing and sizing of DGs. It presents a
new methodology using a new population based meta heuristic
approach namely Artificial Bee Colony algorithm(ABC) for
the placement of Distributed Generators(DG) in the radial
distribution systems to reduce the real power losses and to
improve the voltage profile, voltage sag mitigation. The power
loss reduction is important factor for utility companies because
it is directly proportional to the company benefits in a
competitive electricity market, while reaching the better power
quality standards is too important as it has vital effect on
customer orientation. In this paper an ABC algorithm is
developed to gain these goals all together. In order to evaluate
sag mitigation capability of the proposed algorithm, voltage
in voltage sensitive buses is investigated. An existing 20KV
network has been chosen as test network and results are
compared with the proposed method in the radial distribution
system.
@article{ksivaramududrmpadmalalitha2014optimal,
abstract = {This paper presents the need to operate the power
system economically and with optimum levels of voltages has
further led to an increase in interest in Distributed
Generation. In order to reduce the power losses and to improve
the voltage in the distribution system, distributed generators
(DGs) are connected to load bus. To reduce the total power
losses in the system, the most important process is to identify
the proper location for fixing and sizing of DGs. It presents a
new methodology using a new population based meta heuristic
approach namely Artificial Bee Colony algorithm(ABC) for
the placement of Distributed Generators(DG) in the radial
distribution systems to reduce the real power losses and to
improve the voltage profile, voltage sag mitigation. The power
loss reduction is important factor for utility companies because
it is directly proportional to the company benefits in a
competitive electricity market, while reaching the better power
quality standards is too important as it has vital effect on
customer orientation. In this paper an ABC algorithm is
developed to gain these goals all together. In order to evaluate
sag mitigation capability of the proposed algorithm, voltage
in voltage sensitive buses is investigated. An existing 20KV
network has been chosen as test network and results are
compared with the proposed method in the radial distribution
system.},
added-at = {2014-02-26T09:17:41.000+0100},
author = {{K. Siva Ramudu, Dr. M. Padma Lalitha}, P. Suresh Babu},
biburl = {https://www.bibsonomy.org/bibtex/231800c296d32c558a5ba6a52f5e5adb9/ideseditor},
editor = {Das, Dr. Vinu V},
interhash = {ccd68a548a4a895df1a248775caa10d9},
intrahash = {31800c296d32c558a5ba6a52f5e5adb9},
journal = {ACEEE International Journal of Electrical and Power Engineering},
keywords = {Distributed_generation},
month = {February},
number = 1,
pages = 6,
timestamp = {2014-02-26T09:21:15.000+0100},
title = {Optimal Placement of DG for Loss Reduction and
Voltage Sag Mitigation in Radial Distribution Systems
using ABC Algorithm},
url = {http://searchdl.org/public/journals/2014/IJEPE/5/1/4.pdf},
volume = 5,
year = 2014
}