Your search keyword '"Dokopoulos, Petros S."' showing total 8 results

1. Earth return path impedances of underground cables for the two-layer earth case

Author

Tsiamitros, Dimitrios A., Papagiannis, Grigoris K., Labridis, Dimitris P., and Dokopoulos, Petros S.

Subjects

Electromagnetism, Power supply (Electronics), Electric power distribution, Business, Computers, Electronics, Electronics and electrical industries

Abstract

The influence of earth stratification on underground power cable impedances is investigated in this paper. A rigorous solution of the electromagnetic field for the case of underground conductors and a two-layer earth is presented. Analytic expressions for the self and mutual impedances of the cable are derived. The involved semi-infinite integrals are calculated by a novel, numerically stable, and efficient integration scheme. Typical single-core cable arrangements are examined for a combination of layer depths and earth resistivities, based on actual measurements. The accuracy of the results over a wide frequency range is justified by a proper finite-element method formulation. The differences in cable impedances due to earth stratification are presented. Finally, a simple switching transient simulation is examined to evaluate the influence of the earth stratification on transient voltages and currents. Index Terms--Electromagnetic transient analysis, finite-element method (FEM), nonhomogeneous earth, power cable modeling.

Published

2005

2. A Correlation Index to Evaluate Impact of PV Installation on Joule Losses.

Author

Marinopoulos, Antonios G., Alexiadis, Minas C., and Dokopoulos, Petros S.

Subjects

STATISTICAL correlation, ENERGY dissipation, ELECTRIC power distribution, DISTRIBUTED power generation, PHOTOVOLTAIC power generation, ELECTRIC units, ELECTRONIC indexes

Abstract

This paper proposes a new correlation index, in order to connect the sizing and the siting of a PV unit with the respective impact on Joule losses of a radial distribution feeder. Randomly generated scenarios for PV units siting are investigated and based on the results the proposed index is formulated, corrected, and validated. The index incorporates factors such as: 1) the correlation coefficient between the installed PV capacity per node and the respective power rating of the distribution transformer, and 2) the size of a PV unit in relation to its distance from the feeding end. The importance of this index lies in the fact that it may be used from the DSO to evaluate the contribution of a new PV unit interconnection to the annual Joule losses of a line beforehand, and thus perform a better cost allocation. [ABSTRACT FROM AUTHOR]

Published

2011

3. Earth Return Impedances of Conductor Arrangements in Multilayer Soils—Part II: Numerical Results.

Author

Tsiamitros, Dimitrios A., Papagiannis, Grigoris K., and Dokopoulos, Petros S.

Subjects

ELECTRIC power distribution, POWER transmission, ELECTRIC power systems, ELECTRIC power transmission, PERTURBATION theory, ELECTRIC filters, SHUNT electric reactors, ELECTRIC lines, FINITE element method

Abstract

The influence of earth stratification on the conductor impedances is investigated in this paper. The generalized expressions for the self and mutual impedance of conductors in the multilayer earth case, which have been derived in a companion paper, are implemented on typical overhead power transmission lines and underground single-core power cable arrangements for discrete and exponential variations of earth resistivity. The accuracy of the results over a wide frequency range is justified by a proper finite-element method formulation. The differences in the impedances due to earth stratification are presented. The influence of the earth stratification on the actual transient responses of the conductor arrangements is also investigated. [ABSTRACT FROM AUTHOR]

Published

2008

4. Earth Return Impedances of Conductor Arrangements in Multilayer Soils—Part I: Theoretical Model.

Author

Tsiamitros, Dimitrios A., Papagiannis, Grigoris K., and Dokopoulos, Petros S.

Subjects

ELECTRIC power distribution, POWER transmission, ELECTRIC power systems, ELECTRIC power transmission, PERTURBATION theory, ELECTRIC filters, SHUNT electric reactors, ELECTRIC lines, FINITE element method

Abstract

The influence of earth stratification on the conductor impedances is investigated in this paper. A general solution of the electromagnetic-field equations for the case of overhead and underground transmission-line conductors of arbitrary topology and multilayer earth is presented. Generalized expressions for the self and mutual impedances of the conductors are derived. All existing approaches result from the generalized equations, when the corresponding approximations are applied. A suitable integration scheme is also proposed for the calculation of the complex integrals involved in the expressions. [ABSTRACT FROM AUTHOR]

Published

2008

5. Low-Voltage Distribution Line Performance Evaluation for PLC Signal Transmission.

Author

Papadopoulos, Theofilos A., Papagiannis, Grigoris K., and Dokopoulos, Petros S.

Subjects

ELECTRIC lines, FAULT zones, ELECTRIC potential, ELECTRIC power distribution, ELECTRIC power systems, ELECTROMAGNETIC fields, ELECTRIC equipment, CABLES, POWER transmission

Abstract

Power-line communications over the low-voltage networks is gaining the attention of researchers in both broadband and narrowband application areas. The transmission characteristics of the power-line carrier are very significant in signal propagation. This paper presents field test and simulation results concerning signal transmission on power lines in underground and aerial installations within the CENELEC EN 50065-1 B band. Field test results show the consistency to the transmission line theory and modal wave propagation. The well-known Alternate Transients Program-Electromagnetic Transients Program (ATP-EMTP) is used for the simulation of the transmission path. Simulation results, obtained for different operational cases and configurations, are compared to the actual measurements from field tests, showing satisfactory agreement. Finally, the proposed models are used in further investigations concerning the signal transmission. [ABSTRACT FROM AUTHOR]

Published

2008

6. Homogenous Earth Approximation of Two-Layer Earth Structures: An Equivalent Resistivity Approach.

Author

Tsiamitros, Dimitrios A., Papagiannis, Grigoris K., and Dokopoulos, Petros S.

Subjects

POWER transmission, ELECTRIC power distribution, ELECTRIC power systems, ELECTRIC power production, ELECTRIC power transmission, ELECTRIC industries

Abstract

The homogenous earth representation of two-layer earth structures for earth return impedance calculations is investigated in this paper. This representation is based on equivalent resistivity, which takes properly into account the electromagnetic and the geometrical properties of the two earth layers. The equivalent resistivity can be used in the relatively simpler formulas for the earth return calculations for the case of homogenous earth. The new expression is implemented for six actual cases of two-layer earth structures involving combinations of overhead and underground conductors. Results show that the equivalent resistivity approach can lead to significant simplifications in most cases of switching transient simulations in the presence of two-layer earth structures. [ABSTRACT FROM AUTHOR]

Published

2007

7. Energy losses in a distribution line with distributed generation based on stochastic power flow

Author

Marinopoulos, Antonios G., Alexiadis, Minas C., and Dokopoulos, Petros S.

Subjects

*ENERGY dissipation, *ELECTRIC power distribution, *ELECTRIC power production, *STOCHASTIC processes, *PHOTOVOLTAIC power systems, *ELECTRIC utility costs, *MONTE Carlo method

Abstract

Abstract: This paper proposes a methodology for stochastic power flow in a distribution line with dispersed photovoltaic (PV) penetration. Both load and PV generation are stochastic processes. The methodology uses a probabilistic model for load demand based on measured data and an extensive stochastic modeling of PV units’ power production based on historical meteorological data and commercial available PV panels. Annual power flow simulations are performed to evaluate loss reduction resulting for different penetration levels and siting strategies of PV into an urban radial distribution feeder. Finally, a cost index for the losses is defined taking into account System Marginal Price data. Results may be of interest for dimensioning, siting and cost allocation in distribution systems with dispersed generation. [Copyright &y& Elsevier]

Published

2011

8. Installation of PV systems in Greece—Reliability improvement in the transmission and distribution system

Author

Bouhouras, Aggelos S., Marinopoulos, Antonios G., Labridis, Dimitris P., and Dokopoulos, Petros S.

Subjects

*PHOTOVOLTAIC power systems, *POWER resources, *ELECTRIC lines, *ELECTRIC power distribution, *RELIABILITY in engineering, *ELECTRIC power transmission

Abstract

Abstract: Photovoltaic (PV) power systems are becoming one of the most developing investment areas in the field of Renewable Energy Sources (RES). A statement of the status quo of PV power systems in Greece, and their contribution towards the improvement of power system reliability, is the scope of the present paper. Siting and installation of PV power systems is performed according to a recent Greek law, along with environmental and geographical constraints. Meteorological data are computed, formulated and imported to appropriate software in order to simulate the PV units and generate their power output. Data for unserved loads, resulting from load shedding during peak hours, are compared to the above estimated power production. Assuming that a proportion of the eventually unsupplied power could be provided by the accessed power generation of the PV units, the reliability of both transmission and distribution system is improved. The impact on the transmission system is shown by an improvement of LOLP and LOEP indices, whereas peak shaving for the Interconnected Greek Transmission System (IGTS) is also illustrated. For the distribution system the impact is quantified using the distribution system reliability indices SAIDI, SAIFI, and CAIDI. Finally, the resulting improvement is also expressed in financial terms. [Copyright &y& Elsevier]

Published

2010