Paper Titles

Research on Distribution Transformer Condition Assessment Method Based on Core State Variable Set
p.83

Research on the Impact of Power Grid Harmonic on Energy Meter and its Solution Methods
p.88

Study on the Lightning Current Amplitude Distribution in Shenzhen Power Grid
p.94

Time-Frequency Analysis Method in the Transient Power Quality Disturbance Analysis Application
p.99

Overview of Impacts of Distribution Generations and Micro Grids on Active Distribution Network Operation
p.103

A Study on the Luminescent Properties and Energy Transfer of Na₂BaMgP₂O₈:Tb³⁺, Eu³⁺ Phosphor
p.113

Corrosion Behavior of Conducting Polymer PANI in Simulating PEMFC Conditions
p.117

Effects of Sb or Ba Addition on the Piezoelectric Properties of PZT
p.121

Preparation of Carbon Monoliths by a Simple Polymer Blend Technique
p.125

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 700Overview of Impacts of Distribution Generations...

Overview of Impacts of Distribution Generations and Micro Grids on Active Distribution Network Operation

Article Preview

Abstract:

With recent development of technology and management in power market and equipment, more and more distributed generation (DG) is embedded in the distribution network. However the approach of connecting DG in most cases is based on a so-called ‘fit and forget’ policy and the capacity of DG is limited rigidly by distribution system operator to avoid the negative effects of high level penetration. New management technologies have been proposed to handle the integration of DGs in the distribution networks. In this review, the micro grid (MG) was treated as the local control method to coordinate DGs within a small area of distribution network. And the active distribution network (AND) was treated as the global control mechanism to actively manage DGs, MGs and other equipment. The operation framework of ADN was firstly introduced. Then based on the static and dynamic models of DGs and MGs, impacts of DGs and MGs on the ADN are surveyed from power quality, stability to the operation. Finally, the conclusion and suggestion is given in this paper.

You might also be interested in these eBooks

Advances in Energy Materials and Environment Engineering

Info:

Periodical:

Applied Mechanics and Materials (Volume 700)

Pages:

103-110

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.700.103

Citation:

Cite this paper

Online since:

December 2014

Authors:

Lei Yu*, Tian Yang Zhao, Xu Wu, Jian Hua Zhang

Keywords:

Active Distribution Network, Distributed Generation (DG), Micro Grid, Operation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2015 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Information on http: /zfxxgk. nea. gov. cn/auto87/201409/t20140904_1837. html.

[2] N. Lidula, A. Rajapakse: Renewable Sustainable Energy Rev Vol. 15(2011), p.186.

[3] R. Zamora, A. K. Srivastava: Renewable Sustainable Energy Vol. 14(2010), p. (2009).

[4] D. Pudjianto, et al.: IET Renew Power Generation Vol. 1(2007), p.10.

[5] S. Chowdhury, C. Peter: Microgrids and active distribution networks (The Institution of Engineering and Technology, 2009).

[6] P. Hallberg, G. Lorenz., Mandatova P: 22nd International Conference on Electricity Distribution, Vol. 3 (2013) . p.1378.

[7] A. Haddadi, et al: IEEE Transactions on Power Delivery, Vol. 29 (2014) p.560.

[8] F. H. Lopes, A. Costescu, A. L'Abbate, et al: Energy Policy, Vol. 39 (2014) p.5561.

[9] A. Peter: The Electricity Journal, Vol. 23 (2010) p.72.

[10] J. T. Zhang, H. Z. Cheng, C. Wang: International Journal of Electrical Power & Energy Systems, Vol. 31 (2009) p.130.

[11] L. I. Dulău , M. Abrudean.: Procedia Technology, Vol. 12 (2014) pp.687-692.

[12] A. G. Madureira, Pecas Lopes J A: Electric Power Systems Research, Vol. 86 (2012) p.1.

[13] T. S. Moghaddas: Electric Power Systems Research, Vol. 79 (2009) p.680.

[14] Ai Q, Wang X: Renewable Energy, Vol. 62 (2014) pp.417-423.

[15] D. Khani, Y. A. Sadeghi: International Journal of Electrical Power & Energy Systems, Vol. 43 (2012). p.488.

[16] Y. Firouz, S. Farhadkhani , J. Lobry, Vallée, F., Khakpour: Renewable Energy, Vol. 69 (2014) . p.271.

DOI: 10.1016/j.renene.2014.03.035

[17] J. Widén, E. Wäckelgård, J. Paatero, et al: Electric power systems research, Vol. 80 (2010) . p.1562.

[20] C. L. T. Borges: Renewable and sustainable energy reviews, Vol. 16 (2012) . p.4008.

[21] A. S. Safigianni, G. N. Koutroumpezis, V. C. Poulios: Electric Power Systems Research, Vol. 96 (2013). p.75.

DOI: 10.1016/j.epsr.2012.10.017

[22] M. H. Syed, H. H. Zeineldin, M. S. El Moursi: IET Generation, Transmission & Distribution, Vol. 8 (2014) . p.563.

[23] M. Z. Samila, V. M. Jovića : IEEE Transactions on Power Systems, Vol. 28 (2007) p.3126.

[24] R. P. S. Leão, G. C. Barroso, R. F. Sampaio, et al: International Journal of Electrical Power & Energy Systems, Vol. 33 (2011) . p.1506.

[25] B. Jignesh, S. Vipul, J. Omkar: Renewable and Sustainable Energy Reviews, Vol. 40 (2014) . p.1217.

[26] O. Ipinnimo, S. Chowdhury, S. P. Chowdhury: Electric Power Systems Research, Vol. 103 (2013) . p.28.

[27] S. J. Huang, F. S. Pai: IEEE Transactions on Industrial Electronics, Vol. 49 (2002) . p.256.

[28] R. Arghandeh, A. Onen, J. Jung : Electric Power Systems Research, Vol. 105 (2013) . p.124.

[29] N. Gupta, A. Swarnkar, K. R. Niazi.: International Journal of Electrical Power & Energy Systems, Vol. 54 (2014): . p.664.

[30] Repo, S., Mäki, K., Järventausta, P., Samuelsson: ADINE—EU demonstration project of active distribution management (In Proceedings of CIRED seminar, 2008).

DOI: 10.1049/ic:20080457

[31] S. Conti: Electric Power Systems Research, Vol. 79 (2009) . p.49.

[32] N. K. Roy, H. R. Pota,T. F. Orchi,: In Universities Power Engineering Conference, Vol. 2012 22nd Australasian (2012) . p.1.

[33] A. Haddadi: IEEE Transactions on Power Delivery, Vol. 29 (2014): p.560.

[34] N. K. Roy : International Journal of Electrical Power & Energy Systems, Vol. 53 (2013) . p.515.

[35] M. Esmaili, C. F. Esmail, A. S. Heidar: Applied Energy, Vol. 113 (2014) . p.1252.

[36] M. Dotoli, N. Epicoco, M. Falagario, et al. : Computers in Industry, Vol. 65 (2014) . p.774.

[37] M. Mashhour, M. A. Golkar, S. M. Moghaddas-Tafreshi.: Energy Conversion and Management, Vol. 52(2011) . p.477.

[38] A. Zakariazadeh, S. Jadid, P. Siano: International Journal of Electrical Power & Energy Systems, Vol. 63 (2014) p.218.

[39] S. K. Pandey, S. R. Mohanty, N. Kishor : Renewable and Sustainable Energy Reviews, Vol. 25 (2013) . p.318.

[40] A. S. Safigianni, G. N. Koutroumpezis, V. C. Poulios: Electric Power Systems Research, Vol. 96 (2013) . p.75.

DOI: 10.1016/j.epsr.2012.10.017

[41] S. Jashfar, S. Esmaeili: International Journal of Electrical Power & Energy Systems, Vol. 60 (2014) . p.22.

[42] S. Kalambe, G. Agnihotri: Renewable and Sustainable Energy Reviews, Vol. 29 (2014) . p.184.

[43] P. N. Vovos, A. E. Kiprakis, A. R. Wallace, et al: IEEE Transactions on Power Systems, Vol. 22 (2007) p.476.

[44] T. J. T. Hashim, A. Mohamed, H. Shareef: PRZEGLĄD ELEKTROTECHNICZNY (Electrical Review), (2012) . p.304.

[45] M. Elnashar, M. Kazerani , R. El Shatshat: In Power Electronics Specialists Conference, Vol. PESC 2008. IEEE (2008) . p.4539.

DOI: 10.1109/pesc.2008.4592679

[46] T. Sansawatt, L. F. Ochoa, G. P. Harrison,. Decentralised voltage and thermal management to enable more distributed generation connection. In CIRED Workshop, Lyon. (2010).

[47] R. Tonkosk, L. A. Lopes , T. H. El-Fouly: IEEE Transactions on Sustainable Energy, Vol. 2 (2011) . p.

[48] D. P. Bernardon: Electric Power Systems Research, Vol. 107 (2014) . p.59.

[49] S. Golshannavaz, A. Saeed, A. Farrokh : IEEE trans on smart grid, Vol. 5 (2014) . p.2402.

[50] A. E. Milani, R. H. Mahmood.: Mathematical and Computer Modelling, Vol. 57 (2013) . p.169.