Juan Van Roy
University of Leuven, Department of Electrical Engineering (ESAT), Leuven, Belgium/Flemish Institution for Technological Research (VITO), Unit Energy Technology, Belgium/EnergyVille, Genk, Belgium
Robbe Salenbien
Flemish Institution for Technological Research (VITO), Unit Energy Technology, Belgium/EnergyVille, Genk, Belgium
Johan Driesen
University of Leuven, Department of Electrical Engineering (ESAT), Leuven, Belgium/EnergyVille, Genk, Belgium
Ladda ner artikel
http://dx.doi.org/10.3384/ecp14096301Ingår i: Proceedings of the 10th International Modelica Conference; March 10-12; 2014; Lund; Sweden
Linköping Electronic Conference Proceedings 96:31, s. 301-309
This paper presents a Modelica library for electrical grid systems for low-voltage distribution grids and in-building grids. The library is based on previous work; in which a library was presented to simulate fully balanced three-phase low-voltage distribution grids. This library is extended to simulate three-phase unbalanced low-voltage distribution grids as part of the IDEAS library. The library also allows to simulate in-building AC and DC grids. The AC grids can be single-phase or three-phase (un)balanced grids. Electrical grids may connect many different energy systems (loads and generation units); different grids and/or buildings within districts. The library allows to assess the grid impact of these systems. Control strategies for appliances can use grid variables; such as voltages and power exchanges.
[1] B. Verbruggen, J. Van Roy, R. De Coninck, R. Baetens, L. Helsen, and J. Driesen, “Object-Oriented Electrical Grid and Photovoltaic system modelling in Modelica,” in 8th International
Modelica Conference, Dresden, Germany, Mar. 2011.
[2] R. Baetens, R. De Coninck, J. Van Roy, B. Verbruggen, J. Driesen, L. Helsen, and D. Saelens,
“Assessing Electrical Bottlenecks at Feeder
Level for Residential Net Zero-Energy Buildings
by Integrated System Simulation,” Applied Energy,
vol. 96, pp. 74–83, Aug. 2012.
[3] The European Commission. (2013,
Dec.) The EU Climate and Energy
Package. [Online]. Available: http://ec.europa.eu/clima/policies/package/
[4] The European Parliament, “Directive
2010/31/EU of the European Parliament
and the Council on 19 May 2010 on the Energy
Performance of Buildings (recast),” 2010.
[5] J. Van Roy, B. Verbruggen, and J. Driesen, “Ideas
for tomorrow: New tools for integrated building
and district modeling,” IEEE Power & Energy
Magazine, vol. 11, no. 5, pp. 75–81, Aug. 2013.
[6] H. Lee Willis, Power Distribution Planning Reference
Book. USA: Marcel Dekker, Inc., 1997.
2Inode, Iline, Snode and Unode are all complex matrices.
[7] P. Savege, R. Nordhaus, and S. Jamieson, “DC
Microgrids: Benefits and Barriers.” Yale School
of Forestry & Environmental Studies.
[8] B. Williamson, M. Redfern, R. Aggarwal,
J. Allinson, C. Harris, P. Bowley, and
R. Hotchkiss, “Project Edison: SMART-DC,” in
IEEE PES Innovative Smart Grids Technologies
Europe (ISGT), Manchester, United Kingdom, Dec. 2011.
[9] International Energy Agency, “Energy Technology
Perspectives 2012: Pathways to a Clean Energy
System,” 2012.
[10] R. Passey, T. Spooner, I. MacGill, M. Watt, and
K. Syngellakis, “The Potential Impacts of Grid-Connected Distributed Generation and How to
Address Them: A Review of Technical and
Non-Technical Factors,” Energy Policy, vol. 39, no. 10, pp. 6280–6290, Oct. 2011.
[11] K. Clement, E. Haesen, and J. Driesen, “The Impact
of Vehicle-to-Grid on the Distribution Grid,”
Electric Power System Research Journal, vol. 81,
no. 1, pp. 185–192, Jan. 2011.
[12] L. Liu, F. Felgner, and G. Frey, “Comparison of 4
Numerical Solvers for Stiff and Hybrid Systems
Simulation,” in IEEE Conference on Emerging
Technologies and Factory Automation, Bilbao,
Spain, Sep. 2010.
[13] J. Tant, F. Geth, D. Six, and J. Driesen, “Multiobjective
Battery Storage to Improve PV Integration
in Residential Distribution Grids,” IEEE
Transaction on Sustainable Energy, vol. 4, no. 1,
pp. 182–191, Jan. 2013.
[14] SPOT library. [Online]. Available: https://github.
com/modelica-3rdparty/SPOT
[15] Modelon. Electric Power Library. [Online].
Available: http://www.modelon.com/products/modelica-libraries/electric-power-library
[16] F. Geth, N. Leemput, J. Van Roy, J. Büscher, R. Ponnette, and J. Driesen, “Voltage Droop Charging of Electric Vehicles in a Residential
Distribution Feeder,” in IEEE PES Innovative
Smart Grid Technologies (ISGT) Europe, Berlin,
Germany, Oct. 2012.
[17] (2013, Dec.) Flemish Regulator for the Energy
and Gas markets (VREG). [Online]. Available:
http://www.vreg.be
