2017
1
3
3
0
1

Distribution Network Reconfiguration Study Using The Gravitational Search Algorithm
http://spre.azad.ac.ir/article_533545.html
1
In this paper, the electrical distribution network reconfiguration to achieve loss reduction, load balancing and improve voltage profile in the presence of Distributed Generation (DG) with the gravitational search algorithm (GSA), is investigated. By choosing a 33bus IEEE sample network and running a computer simulation on it, it is observed that the results of this rearrangement are comparable with similar papers.
0

1
11


Nader
Mehrabi
Electrical Engineering Department, South Tehran Branch, Islamic Azad University, Tehran, Iran.
Iran


Javad
Olamaei
Electrical Engineering Department, South Tehran Branch, Islamic Azad University, Tehran, Iran.
Iran
j_olamaei@azad.ac.ir
Reconfiguration
distributed generation
Gravitational Search Algorithm
1

Facilitating Placement of the Reactive Compensators Using a Revised Impedance Matrix
http://spre.azad.ac.ir/article_535261.html
1
Determining placement and capacity of reactivepower compensators in distribution networks is an optimization problem with various objectives and technical constraints. The large number of variables and constraints in this problem can be an obstacle for the success of classical and metaheuristic optimization methods. Therefore, having a guess of the suitable buses for installing compensators as an initial solution, improves performance of the mentioned methods. Using the network impedance matrix, an initial guess is obtained in this paper in the form of suitable or higherpriority buses. The applied matrix is a revised version in which loads connected to the buses are taken into account. The reasons for considering the loads are that, firstly, the list of buspriorities becomes more consistent with network load pattern, and secondly, difficulties in forming the impedance matrix in radial distribution networks are obviated. Comparison of the list of suitable buses for installing the compensator obtained by the proposed method with the list of buses extracted from the sensitivity analysis indicates the effectiveness of the former method.
0

13
19


Babak
Rashidi
Department of electrical engineering, South Tehran Branch, Islamic Azad University
Iran
babak.rashidi84@gmail.com
علی
اخوین
Ali
Akhavein
Department of electrical engineering, South Tehran Branch, Islamic Azad University
Iran
ali.akhavein@gmail.com
Reactivepower compensation
Impedance matrix
Initial solution
1

Compare Performance of Recovery Algorithms MP, OMP, L1Norm in Compressive Sensing for Different Measurement and Sparse Spaces
http://spre.azad.ac.ir/article_535270.html
1
In this paper, at first, compressive sensing theory involves introducing measurement matrices to dedicate the signal dimension and so sensing cost reduction, and sparse domain to examine the conditions for the possibility of signal recovering, are explained. In addition, three well known recovery algorithms called Matching Pursuit (MP), Orthogonal Matching Pursuit (OMP), and L1Norm are briefly introduced. Then, the performance of three mentioned recovery algorithms are compared with respect to the mean square error (MSE) and the result images quality. For this purpose, Gaussian and Bernoulli as the measurement matrices are used, where Haar and Fourier as sparse domains are applied.
0

21
26


Bahareh
Davoodi
Electrical Engineering Department
South Tehran Branch, Islamic Azad University
Tehran, Iran
Iran


Sedigheh
Ghofrani
Electrical Engineering Department
South Tehran Branch, Islamic Azad University
Tehran, Iran
Iran
s_ghofrani@azad.ac.ir
OMP
MP
L1Norm
1

New Modeling of Metal Oxide Surge Arresters
http://spre.azad.ac.ir/article_535278.html
1
This paper describes simplified modeling of metal oxide surge arrester (MOSA) to operate analysis. This model is a new model proposed (PK Model) to verify the accuracy in order to compare with IEEE and Pinceti Model. The simulations are performed with the Alternative Transients Program version of Electromagnetic Transient Program (ATPEMTP). In the present paper, the MOSA models were verified for several medium voltages which consist of 18 kV and 21 kV, which 18 kV arrester was used in 22 kV system of Provincial Electricity Authority (PEA) and 21 kV arrester was used in 24 kV system of Metropolitan Electricity Authority (MEA) in Thailand. The PK model was evaluate from different manufacturing, it is based on the General Electric (GE), Siemens and Ohio Brass as well as IEEE and Pinceti Model. The tests are performed by applying a fast front current surge with front time of up to 0.5μs and the standard impulse current surge (8/20μs). The results were compared between three models in order to calculate the error operation of the MOSA in the ATPEMTP Program. The relative error of arrester models show that the PK model can be used to simulate and calculate in ATPEMTP program as well as IEEE and Pinceti model. In the case of fast front current surge, the PK model has a maximum error of 5.39% (Ohio Brass, 10 kA, 21 kV) and has a minimum error of 0.24% (GE, 10 kA, 18 kV). Also, the standard impulse current surge, PK model has a maximum error of 2% (Ohio Brass, 10 kA, 18 kV) and has a minimum error of 0.32% (Siemens, 10 kA, 21 kV) in the voltage response.
0

27
37


SeyedMohammad Hassan
Hosseini
Electrical Engineering Department
South Tehran Branch, Islamic Azad University
Tehran, Iran
Iran
smhh110@azad.ac.ir


Yoones
Gharadaghi
Electrical Engineering Department
South Tehran Branch, Islamic Azad University
Tehran, Iran
Iran
1

Presenting Comprehensive Algorithm for Long Term Scheduling of Preventive Maintenance in the Electric Transmission Networks
http://spre.azad.ac.ir/article_535263.html
1
One of the main challenges in preventive maintenance scheduling in electric transmission network is obtaining the model which can evaluates the effect of the maintenance and inspection strategies on the component reliability. Such model, on one hand, should be able to consider the uncertainties of components deterioration and, on the other hand, should consider the effect of maintenance and inspection strategies on the deterioration. In this paper, using Markov model, six maintenance models are extracted. These models help us to determine the best maintenance strategy for each failure mode.
0

39
48


Niki
Moslemi
System studying team work, Iran Power research
Iran


Mostafa
Kazami
System studying team work, Iran Power research.
Iran


Seyyed Mostafa
Abedi
Electrical Engineering Department
South Tehran Branch, Islamic Azad University
Tehran, Iran
Iran
m_abedi@azad.ac.ir


Hadi
Khatibzadeh
System studying team work, Iran Power research.
Iran


Mohamad
Jafarian
System studying team work, Iran Power research.
Iran


Saeed
Salimi
System studying team work, Iran Power research.
Iran
Preventive maintenance
Reliability
Markov Model
Failure Mode
1

Effect of Impulse Voltage on Partial Discharge of Oil and Paper  Oil Insulators Containing Air Cavity
http://spre.azad.ac.ir/article_542985.html
1
In power systems, usually by lightning strikes or switching operation, impulse voltage is produced. This paper reviews the effect of high impulse voltage on the PD parameters. In recent years, numerous studies on PD in the insulation, under the impulse has been done. Despite the use of power equipment and tools, switching impulse is created in the system. So, studies on PD activity with the initiation and end voltage PD in insulators have been investigated. However, the combination of PD characteristics with AC and impulse has not been studied in many studies so far. Unlike previous studies, in this paper, along with the impulse voltage, the AC voltage effects are also considered. On the other hand, dielectric characteristics show the quality of insulation in terms of the soundness or deterioration of equipment over time. The deterioration and aging of equipment can be due to electrical stresses such as alternating current PDs or transient stresses or due to environmental pressures and temperature or mechanical pressures. At this point, the effect of the PD alternating current (AC) on paper combination insulation oil dielectric frequency response equipment is investigated. In this review, a brief history of the performance of insulation against partial electrical discharge is addressed, and the finite element method software (Maxwell) is used to simulate partial electrical discharge for objects that are particularly sharp.
0

49
59


Seyed Mohammad Hassan
Hosseini
Electrical Engineering Department, South Tehran Branch, Islamic Azad University
Iran
smhh110@azad.ac.ir


Roya
Shmsali
Electrical Engineering Department, South Tehran Branch, Islamic Azad University
Iran
rshamsali1977@gmail.com
Partial Electrical Discharge
Insulation
Oil
Oil Paper
Dielectric Response