Skip to main content
SpringerLink
Log in

Distributed Generation Location Allotment for Optimized Power System Performance

  • Conference paper
  • First Online:
Computing Algorithms with Applications in Engineering

Part of the book series: Algorithms for Intelligent Systems ((AIS))

  • 478 Accesses

Abstract

Distributed generation (DG) has gained more attention as it uses renewable and non-renewable small energy sources. Distributed generators are neither centrally placed nor dispatchable. It is scattered within the distribution system at or near load center. Distributed generation playing important role in the field of the electricity generation whereas different issues related to power quality when DG is integrated with the existing power system has been discussed in the report. Distributed generation is the excellent way to bridge the hole between grant and demand by reducing losses and carbon footprints. Rural and remote areas can be electrified by means of these technologies.

This is a preview of subscription content, log in via an institution to check access.

Access this chapter

Log in via an institution
Chapter
USD 29.95
Price excludes VAT (USA)
  • Available as PDF
  • Read on any device
  • Instant download
  • Own it forever
eBook
USD 129.00
Price excludes VAT (USA)
  • Available as EPUB and PDF
  • Read on any device
  • Instant download
  • Own it forever
Softcover Book
USD 169.99
Price excludes VAT (USA)
  • Compact, lightweight edition
  • Dispatched in 3 to 5 business days
  • Free shipping worldwide - see info
Hardcover Book
USD 169.99
Price excludes VAT (USA)
  • Durable hardcover edition
  • Dispatched in 3 to 5 business days
  • Free shipping worldwide - see info

Tax calculation will be finalised at checkout

Purchases are for personal use only

Institutional subscriptions

References

  1. Farhangi H (2010) The path of the smart grid. IEEE Power Energy Mag 8(1):18–28

    Article  MathSciNet  Google Scholar 

  2. Lee SH, Park JW (2009) Selection of optimal location and size of multiple distributed generations by using Kalman filter algorithm. IEEE Trans Power Syst 24(3):1393–1400

    Article  Google Scholar 

  3. Chowdhury AA, Agarwal SK, Koval DO (2003) Reliability modeling of distributed generation in conventional distribution systems planning and analysis. IEEE Trans Ind Appl 39(5):1493–1498

    Article  Google Scholar 

  4. Ipakchi A, Albuyeh F (2009) Grid of the future. IEEE Power Energy Mag 7(2):52–62

    Article  Google Scholar 

  5. Statistics Korea (2010) Car Registration Status, Daejeon, South Korea (Online). Available: http://www.index.go.kr/egams/stts/jsp/potal/stts/PO_STTS_IdxMain.jsp?idx_cd=1257&bbs=INDX_001&clas_div=A

  6. Korea Power Exchange (2010) Demand and Supply Result, Seoul, South Korea (Online). Available: http://www.kpx.or.kr/KOREAN/htdocs/main/sub/bidYesterdayList.jsp?cmd=&curpage=103

  7. Hegazy YG, Salama MMA, Chikhani AY (2003) Adequacy assessment of distributed generation systems using Monte Carlo simulation. IEEE Trans Power Syst 18(1):48–52

    Article  Google Scholar 

  8. Singh D, Misra RK, Singh D (2007) Effect of load models in distributed generation planning. IEEE Trans Power Syst 22(4):2204–2212

    Article  Google Scholar 

  9. El-Khattam W, Hegazy YG, Salama MMA (2005) An integrated distributed generation optimization model for distribution system planning. IEEE Trans Power Syst 20(2):1158–1165

    Article  Google Scholar 

  10. Wang C, Hehrir MH (2004) Analytical approaches for optimal placement of distributed generation sources in power systems. IEEE Trans Power Syst 19(4):2068–2076

    Article  Google Scholar 

  11. Karki R, Billinton R (2001) Reliability/cost implications of PV and wind energy utilization in small isolated power systems. IEEE Trans Energy Convers 16(4):368–373

    Article  Google Scholar 

  12. Teleke S, Baran ME, Bhattacharya S, Huang AQ (2010) Rule-based control of battery energy storage for dispatching intermittent renewable sources. IEEE Trans Sustain Energy 1(3):117–124

    Article  Google Scholar 

  13. Kumar A, Gao W (2010) Optimal distributed generation location using mixed integer non-linear programming in hybrid electricity markets. IET Gen Transmiss Distrib 4(2):281–298

    Article  Google Scholar 

  14. Carpinelli G, Celli G, Mocci S, Pilo F, Russo A (2005, July) Optimization of embedded generation sizing and siting by using a double trade-off method. Proc Inst Elect Eng—Gen Transm Distrib 152(4):503–513

    Article  Google Scholar 

  15. Senjyu T, Miyazato Y, Yona A, Urasaki N, Funabashi T (2008, April) Optimal distribution voltage control and coordination with distributed generation. IEEE Trans Power Del 23(2):1236–1242

    Article  Google Scholar 

  16. Saadat H (2004) Power system analysis. In: 2nd ed. McGraw-Hill, Singapore, pp 227–234

    Google Scholar 

  17. Chang YC, Lu CN (2002, July) Bus-oriented transmission loss allocation. Proc Inst Elect Eng––Gen Transmiss Distrib 149(4):402–406

    Article  Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Electrical Engineering Department, KNIT, Sultanpur, India

    Naveen Pandey, Varun Kumar, A. S. Pandey & V. P. Singh

  2. Rajkiya Engineering College Sonbhadra, Sonbhadra, India

    Naveen Pandey, Varun Kumar, A. S. Pandey & V. P. Singh

Authors
  1. Naveen Pandey
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. Varun Kumar
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. A. S. Pandey
    View author publications

    You can also search for this author in PubMed Google Scholar

  4. V. P. Singh
    View author publications

    You can also search for this author in PubMed Google Scholar

Editor information

Editors and Affiliations

  1. Department of Electrical Engineering, Madan Mohan Malaviya University of Technology, Gorakhpur, Uttar Pradesh, India

    V. K. Giri

  2. Department of Electrical Engineering, Indian Institute of Technology Kanpur, Kanpur, India

    Nishchal K. Verma

  3. Department of Electrical Engineering, Rajkiya Engineering College Sonbhadra, Churk, India

    R. K. Patel

  4. Department of Electrical Engineering, Rajkiya Engineering College Sonbhadra, Churk, India

    V. P. Singh

Rights and permissions

Reprints and permissions

Copyright information

© 2020 Springer Nature Singapore Pte Ltd.

About this paper

Check for updates. Verify currency and authenticity via CrossMark

Cite this paper

Pandey, N., Kumar, V., Pandey, A.S., Singh, V.P. (2020). Distributed Generation Location Allotment for Optimized Power System Performance. In: Giri, V., Verma, N., Patel, R., Singh, V. (eds) Computing Algorithms with Applications in Engineering. Algorithms for Intelligent Systems. Springer, Singapore. https://doi.org/10.1007/978-981-15-2369-4_21

Download citation

Publish with us

Policies and ethics

Search

Navigation