Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm

M. Sedighizadeh; A. Rezazadeh; D. Dehghani; M. Mohammadi

Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm

Year 2011, Volume: 3 Issue: 2, 52 - 60, 01.06.2011

M. Sedighizadeh A. Rezazadeh D. Dehghani M. Mohammadi

Abstract

In this paper, our purpose would be optimal distributed generation allocation for stability enhancement, in radial distribution systems. Voltage stability is related with stable load and acceptable voltage in all system buses. The instability is divided into steady state and transient voltage instability Based on the time spectrum of the incident of the phenomena. The analysis is accomplished using a steady state voltage stability index which can be evaluated at each node of the distribution system. Several optimal capacities and locations are used to check this result. The location of DG has the main effect voltage stability on the system. effect of location and capacity on incrementing steady state voltage stability in radial distribution systems are examined through clonal selection algorithm and finally the results are compared to (PSO) on the terms of speed, accuracy and convergence

Keywords

Distributed Generation, Voltage Stability, Allocation, Clonal Selection Algorithm, Particle Swarm Optimization

References

[1] Distributed generation: a definition; Thomas Ackermann , Göran Andersson, Lennart Söder; Electric Power Systems Research 57 (2001) 195–204; December 2000.
[2] M. Gandomkar, M. Vakilian, M. Ehsan, “A combination of genetic algorithm and simulated annealing for optimal DG allocation in distribution networks,” CCECE/CCGEI, Saskatoon, May 2005 IEEE, PP.645-648.
[3] M. Mathur, S.B Karale, S. Priyee, V.K jayaraman and B.D. kulkarni, “Ant colony approach to continuous function optimization, “ industrial & engineering Chemistry Research, vol.39, pp.3814-3822, 2000
[4] C. Berek and M. ziegner, “The maturation of the immune response”,Immune Today, vol. 14,pp.400-402,Agust 1993.
[5] S. Gao, H. Dai, G. Yang, and Z. Tang, “A novel clonal selection algorithm and its application to traveling salesman problems,”IEICE Trans. Fundamentals, vol.E90-A, no.10, pp.2318-2325, oct.2007.
[6] M. Charkravorty and D. Das, “Voltage stability analysis of radial distribution networks,” International Journal of Electrical Power & Energy Systems, Vol. 23, No. 2, pp. 129-135, 2001.
[7] D. Das, D. P. Kothari, and A. Kalam, “Simple and efficient method for load flow solution of radial distribution networks,” Electrical Power & Energy Systems, Vol. 17, No. 5, pp. 335-346, 1995.
[8] Shangce GAO, WeiWANG, Hongwei DAI, Fangjia LI and Zheng TANG, “Improved Clonal Selection Algorithm Combined with Ant Colony” IEICE TRANS. INF. & SYST., Vol..E91–D, No.6 JUNE 2008.
[9] Y. Alinejad-Beromi, and M. Sedighizadeh, and M. Sadighi, “A particle swarm optimization for sitting and sizing of Distributed Generation in distribution network to improve voltage profile and reduce THD and losses,” 43rd International Universities Power Engineering Conference, 2008. UPEC 2008.

Year 2011, Volume: 3 Issue: 2, 52 - 60, 01.06.2011

M. Sedighizadeh A. Rezazadeh D. Dehghani M. Mohammadi

Abstract

References

[1] Distributed generation: a definition; Thomas Ackermann , Göran Andersson, Lennart Söder; Electric Power Systems Research 57 (2001) 195–204; December 2000.
[2] M. Gandomkar, M. Vakilian, M. Ehsan, “A combination of genetic algorithm and simulated annealing for optimal DG allocation in distribution networks,” CCECE/CCGEI, Saskatoon, May 2005 IEEE, PP.645-648.
[3] M. Mathur, S.B Karale, S. Priyee, V.K jayaraman and B.D. kulkarni, “Ant colony approach to continuous function optimization, “ industrial & engineering Chemistry Research, vol.39, pp.3814-3822, 2000
[4] C. Berek and M. ziegner, “The maturation of the immune response”,Immune Today, vol. 14,pp.400-402,Agust 1993.
[5] S. Gao, H. Dai, G. Yang, and Z. Tang, “A novel clonal selection algorithm and its application to traveling salesman problems,”IEICE Trans. Fundamentals, vol.E90-A, no.10, pp.2318-2325, oct.2007.
[6] M. Charkravorty and D. Das, “Voltage stability analysis of radial distribution networks,” International Journal of Electrical Power & Energy Systems, Vol. 23, No. 2, pp. 129-135, 2001.
[7] D. Das, D. P. Kothari, and A. Kalam, “Simple and efficient method for load flow solution of radial distribution networks,” Electrical Power & Energy Systems, Vol. 17, No. 5, pp. 335-346, 1995.
[8] Shangce GAO, WeiWANG, Hongwei DAI, Fangjia LI and Zheng TANG, “Improved Clonal Selection Algorithm Combined with Ant Colony” IEICE TRANS. INF. & SYST., Vol..E91–D, No.6 JUNE 2008.
[9] Y. Alinejad-Beromi, and M. Sedighizadeh, and M. Sadighi, “A particle swarm optimization for sitting and sizing of Distributed Generation in distribution network to improve voltage profile and reduce THD and losses,” 43rd International Universities Power Engineering Conference, 2008. UPEC 2008.

There are 9 citations in total.

Details

Other ID	JA65YU89HG
Journal Section	Articles
Authors	M. Sedighizadeh This is me A. Rezazadeh This is me D. Dehghani This is me M. Mohammadi This is me
Publication Date	June 1, 2011
Published in Issue	Year 2011 Volume: 3 Issue: 2

Cite

APA	Sedighizadeh, M., Rezazadeh, A., Dehghani, D., Mohammadi, M. (2011). Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm. International Journal of Engineering and Applied Sciences, 3(2), 52-60.
AMA	Sedighizadeh M, Rezazadeh A, Dehghani D, Mohammadi M. Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm. IJEAS. June 2011;3(2):52-60.
Chicago	Sedighizadeh, M., A. Rezazadeh, D. Dehghani, and M. Mohammadi. “Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm”. International Journal of Engineering and Applied Sciences 3, no. 2 (June 2011): 52-60.
EndNote	Sedighizadeh M, Rezazadeh A, Dehghani D, Mohammadi M (June 1, 2011) Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm. International Journal of Engineering and Applied Sciences 3 2 52–60.
IEEE	M. Sedighizadeh, A. Rezazadeh, D. Dehghani, and M. Mohammadi, “Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm”, IJEAS, vol. 3, no. 2, pp. 52–60, 2011.
ISNAD	Sedighizadeh, M. et al. “Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm”. International Journal of Engineering and Applied Sciences 3/2 (June 2011), 52-60.
JAMA	Sedighizadeh M, Rezazadeh A, Dehghani D, Mohammadi M. Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm. IJEAS. 2011;3:52–60.
MLA	Sedighizadeh, M. et al. “Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm”. International Journal of Engineering and Applied Sciences, vol. 3, no. 2, 2011, pp. 52-60.
Vancouver	Sedighizadeh M, Rezazadeh A, Dehghani D, Mohammadi M. Distributed Generation Allocation to Improve Steady State Voltage Stability of Distribution Networks Using Clonal Selection Algorithm. IJEAS. 2011;3(2):52-60.