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Smart Meter and Cost Experiment

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Warianty tytułu
PL
Eksperyment dotyczący zastosowania I kosztu licznmika typu smart meter
Języki publikacji
EN
Abstrakty
EN
System that all stakeholders compound the activities (production, transmission, distribution, sale, consumption) to product and to consume quality, constant, reliable and economic electric energy is called Smart Grid (SG) in electric. SG, which its most important component smart meter (Smart Metering- SM), are advanced energy metering devices that give more information than traditional energy meters and that measure the consumption of electric energy. It includes integration techniques and various software applications depending on characteristics of SM electric network. In this study, by giving information about infrastructure of automatic meter, AMI installation levels and its integration to system are explained. An experiment proving the advantages that SM provides to system and consumer has been made and its results have been interpreted.
PL
Układy typu smart meter dają znacznie więcej informacji zużytej energii niż klasyczne liczniki. W artykule przedstawiono infrastrukturę i metody dołączenie do sieci.
Rocznik
Strony
206--209
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
autor
  • University of Yüzüncü Yıl
Bibliografia
  • [1] Hart DG. Using AMI to realize the smart grid. In: Proc. IEEE Power and Energy Society General Meeting – Conversion and Delivery of Electrical Energy. 2008. p. 1–2.
  • [2] Chebbo M. EU smart grids framework: electricity networks of the future 2020 and beyond. In: Proc. IEEE Power Engineering Society General Meeting. 2007. p. 1–8.
  • [3] Vojdani A. Smart integration. IEEE Power & Energy Magazine November 2008;6:71–9.
  • [4] Lee PK, Lai LL. A practical approach of smart metering in remote monitoring of renewable energy applications. In: Proc. IEEE Power & Energy Society General Meeting. 2009. p. 1–4.
  • [5] Mahmood A, Aamir M, Anis MI. Design and implementation of AMR smart grid system. In: Proc. IEEE Canada Electric Power Conference. 2008. p. 6–7.
  • [6] Us Nist, 2013, Nist Framework And Roadmap for Smart Grid Interoperability Standards [online], http://www.nist.gov/smartgrid/upload/NIST_Framework_Release_2-0_corr.pdf [Ziyaret Tarihi: 3 Ocak 2012].
  • [7] Valigi E, Marino E. Networks optimization with advanced meter infrastructure and smart meters. In: Proc. International Conf. and Exhibition on Electricity Distribution. 2009. p.p.1–4.
  • [8] Il-Kwon Y, Nam-Joon J, Young-Il K. Status of advanced metering infrastructure development in Korea. In: Proc. Transmission& Distribution Conference & Exposition: Asia and Pacific. 2009. p. 1–3.
  • [9] Lee PK, Lai LL. Smart metering in micro-grid applications. In: Proc. IEEE Power & Energy Society General Meeting. 2009. p. 1–5.
  • [10] Pacific Northwest GridWise Testbed Demonstration Projects, Part I. Olympic Peninsula Project, D.J. Hammerstrom et al., Ekim 2007, http://gridwise.pnl.gov/docs/opproject_final_rep.pdf
  • [11] GridWise Demonstration Project Fast Facts, Pacific Northwest National Lab.,2007, http://gridwise.pnl.gov/docs/pnnl_.pdf
  • [12] Tuan D. The energy web: concept and challenges to overcome to make large scale renewable and distributed energy resources a true reality. In: Proc. 7th IEEE International Conference on Industrial Informatics. 2009. p. 384–9.
  • [13] Huczala M, Lukl T, Misurec J . Capturing energy meter data over secured power line. In: Proc. International Conference on Communication Technology. 2006. p. 1–4.
  • [14] Maitra S. Embedded energy meter – a new concept to measure the energy consumed by a consumer and to pay the bill. In: Proc. Joint International Conference on Power System Technology and IEEE Power India Conference. 2008. p. 1–8.
  • [15] He MM, Reutzel EM, Xiaofan J, Katz RH, Sanders SR, Culler DE, et al . An architecture for local energy generation, distribution, and sharing. In: Proc IEEE Energy 2030 Conference. 2008. p. 1–6.
  • [16] Cengiz M.S., Rustemli S., Almali M. N. The Advantages of the Applicability of New Generation Sectionalisers and Reclosers Over the Pole "Przeglad Elektrotechniczny" (Electrical Review), R. 89 NR 2a/2013, pp:155-159. 2013.
  • [17] Google.org PowerMeter, http://www.google.org/powermeter
  • [18] Images of Google PowerMeter, No Business Model, Katie Fehrenbacher, 2 Haziran 2009, http://earth2tech.com/2013/01/05/images-of-googlepowermter
  • [19] Microsoft Hohm, 3 Ocak 2013, http://www.microsofthohm.com/Recommendations/
  • [20] Tweet-a-Watt kits now available, Adafruit Industries Blog, http://www.adafruit.com/blog/2013/01/02/tweet-awatt-kits-nowavailable
  • [21] Tweet-a-Watt, http://wattcher.appspot.com/history?user=adawatt@gmail.com
  • [22] TEDAS Elektrik satıs tarifeleri, http://www.tedas.gov.tr/tarifeler_xls/2013_trf/tarife.xls
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ffab3f0b-a112-42d4-98c0-e845064abefc
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