Development of preferential regulations, transmission tariffs, and critical technological components for the promotion of smart grid globally

Titolo Rivista ECONOMICS AND POLICY OF ENERGY AND THE ENVIRONMENT
Autori/Curatori Munish Manas
Anno di pubblicazione 2016 Fascicolo 2015/2 Lingua Inglese
Numero pagine 24 P. 107-130 Dimensione file 295 KB
DOI 10.3280/EFE2015-002008
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Power utilities are raising their investment in smart grid sector because of the increasing demand for electric power, aging transmission and distribution infrastructure, and the requirement for real-time visibility of energy supply and demand to optimize service reliability and cost. The smart grid technologies, smart grid regulatory policies and tariff designs should be formulated in a reliable, efficient and innovative manner for the sustainable expansion of the smart grid globally. All the technologies provider and Electric Regulatory commission policy makers have to work hand in hand to realize this goal. Favorable regulatory policies and utility restructuring control the dynamics of electricity market will promote the smart grid and green energy technologies. Power sector innovative regulations and tariff designs are progressively getting more concerned with network users, both traditional and new, with the mutual aim to stimulating more active participation. Preferential transmission tariff to promote integration of renewable energy sources is also a practical need of the present power sector. In this paper, we are trying to review the critical components of smart grid technologies, preferential regulatory policies and smart grid related tariff designs which would assist in sustainable expansion of the smart grid globally.

Keywords:Smart grid, renewable energy, advanced metering infrastructure, demand response, transmission tariff, regulatory policies, distributed generation, cyber security

Jel codes:L94, Q40

  1. Agrell P.J. and Bogetoft P. (2010). Harmonizing the Nordic Regulation of Electricity Distribution. In E. Bjorndal E. et al. (Eds.). Energy, Natural Resources and Environmental Economics, vol. 2. Springer: 293-316. DOI: 10.1007/978-3-642-12067-1_17
  2. Agrell P.J., Bogetoft P. and Mikkers M. (2013). Smart-Grid Investments, Regulation and Organization. Energy Policy, 52: 656-666. DOI: 10.1016/j.enpol.2012.10.026
  3. Agrell P.J., Bogetoft P. and Tind J. (2005). DEA and Dynamic Yardstick Competition in Scandinavian Electricity Distribution. Journal of Productivity Analysis, 23: 173-201. DOI: 10.1007/s11123-005-1327-6
  4. Ahmadi L., Yip A., Fowler M., Young S.B. and Fraser R.A. (2014). Environmental Feasibility of Re-Use of Electric Vehicle Batteries. Sustainable Energy Technologies and Assessments, 6, June: 64-74. DOI: 10.1016/j.seta.2014.01.006
  5. Akinyele D.O. and Rayudu R.K. (2014). Review of Energy Storage Technologies for Sustainable Power Networks. Sustainable Energy Technologies and Assessments, 8, December: 74-91. DOI: 10.1016/j.seta.2014.07.004
  6. Belli G., Brusco G., Burgio A., Menniti D., Pinnarelli A. and Sorrentino N. (2013). A Feed-In Tariff to Favorite Photovoltaic and Batteries Energy Storage Systems for Grid-Connected Consumers. Proc. of 4th IEEE/PES Conference on Innovative Smart Grid Technologies Europe (ISGT EUROPE) held in Lyngby, Denmark during 6-9 Oct. 2013: 1-5.
  7. Bhat K., Sundarraj V., Pandita S., Sinha S. and Kaul A. (2013). IEEE Global Consumer Socialization of Smart Grid. IEEE Standard 2013, Smart Grid Research: Consumer Socialization, September, 3: 1-64. DOI: 10.1109/ieeestd.2013.6596506
  8. CEER Status Review on European Regulatory Approaches Enabling Smart Grids Solutions (“Smart Regulation”). Online available: http://www.ceer.eu/portal/page/portal/EER_HOME/EER_PUBLICATIONS/CEER_PAPERS/Electricity/Tab3/C13-EQS-57-04_Regulatory%20Approaches%20to%20Smart%20Grids_21-Jan-2014-2.pdf.
  9. Chan A.C. and Jianying Z. (2013). On Smart Grid Cyber Security Standardization: Issues of Designing with NISTIR 7628. IEEE Communications Magazine, January, 51 (1): 58-65.
  10. Chen-Chun L., Chia-Han Y. and Shyua J.Z. (2013). A Comparison of Innovation Policy in the Smart Grid Industry Across the Pacific: China and the USA. Energy Policy, 57: 119-132. DOI: 10.1016/j.enpol.2012.12.028
  11. Das I., Bhattacharya K. and Canizares C. (2012). Optimal Incentive Design to Facilitate Solar PV Investments in Ontario. IEEE Power and Energy Society General Meeting held at San Diego, Canada during 22-26 July 2012: 1-6. DOI: 10.1109/pesgm.2012.6345612
  12. de Santoli L., Albo A., Astiaso Garcia D., Bruschi D. and Cumo F. (2014). A Preliminary Energy and Environmental Assessment of a Micro Wind Turbine Prototype in Natural Protected Areas. Sustainable Energy Technologies and Assessments, 8, December: 42-56. DOI: 10.1016/j.seta.2014.07.002
  13. Department of Energy, Washington, DC. (2009). Enhancing the Smart Grid: Integrating Clean Distributed and Renewable Generation. Office of Electricity Delivery and Energy Reliability. Online available: http://www.oe.energy.gov/DocumentsandMedia/RDSI_fact_sheet-090209.pdf.
  14. Di Dio V., Favuzza S., La Cascia D., Massaro F. and Zizzo G. (2015). Critical Assessment of Support for the Evolution of Photovoltaics and Feed-In Tariff(s) in Italy. Sustainable Energy Technologies and Assessments, 9, March: 95-104. DOI: 10.1016/j.seta.2014.12.004
  15. Enisa Security Aspects of the Smart Grid (2013). Online available: https://www.enisa.europa.eu/activities/Resilience-and-CIIP.
  16. EU Renewable Energy Policy. EurActiv. 2010-11-09. Retrieved 2010-11-14.
  17. Faruqui A., Sergici S. and Sharif A. (2010). The Impact of Informational Feedback on Energy Consumption – A Survey of the Experimental Evidence. Energy, 35: 1598-1608. DOI: 10.1016/j.energy.2009.07.042
  18. Fu Q., Montoya L.F., Solanki A., Nasiri A., Bhavaraju V., Abdallah T. and Yu D.C. (2012). Microgrid Generation Capacity Design with Renewables and Energy Storage Addressing Power Quality and Surety. Smart Grid, IEEE Transactions on, December, 3 (4): 2019-2027. DOI: 10.1109/tsg.2012.2223245
  19. Ghosh D., Shukla P.R., Garg A. and Ramana P.V. (2009). Renewable Energy Strategies for Indian Power Sector. Online available: http://www.decisioncraft.com.
  20. Government of India (2003). The Electricity Act, 2003. The Gazette of India, Extraordinary, June, New Delhi.
  21. Gungor V.C., Sahin D., Kocak T., Ergut S., Buccella C., Cecati C. and Hancke G.P. (2011). Smart Grid Technologies: Communication Technologies and Standards. IEEE Transactions on Industrial Informatics, November, 7 (4): 529-539.
  22. IEEE Approved-proposed-standards-related-to-smart-grid. Online available: http://smartgrid.ieee.org/standards/ieee-approved-proposed-standards-related-to-smart-grid.
  23. Kahrobaeian A. and Yasser A.I. (2012). Interactive Distributed Generation Interface for Flexible Micro-Grid Operation in Smart Distribution Systems. IEEE Transactions on Sustainable Energy, April, 3 (2): 295-305. DOI: 10.1109/tste.2011.2178045
  24. Kolhe S.K.M. and Joshi J.C. (2002). Economic Viability of Stand-Alone Solar Photovoltaic System in Comparison with Diesel-Powered System in India. Energy Economics, March, 24 (2): 155-165. DOI: 10.1016/s0140-9883(01)00095-0
  25. U.S. Smart grid Legislative Regulatory Policies and Case Studies (December 2011). Online available: http://www.eia.gov/analysis/studies/electricity/pdf/smartggrid.pdf, Last Accessed on 15th April, 2015.
  26. White Paper Dynamic Tariff Structures for DSM & DR. Online available: http://indiasmartgrid.org/en/resource-center/Reports/Dynamic%20Tariffs%20White%20Paper.pdf. Last accessed on 18.3.2015.
  27. Wuhua L., Weichen L., Yan D. and Xiangning H. (2010). Single-Stage Single-Phase High-Step-Up ZVT Boost Converter for Fuel-Cell Microgrid System. IEEE Transactions on Power Electronics, December, 25 (12): 3057-3065. DOI: 10.1109/tpel.2010.2079955
  28. Xiang L., Wenye W. and Jianfeng M. (2013). An Empirical Study of Communication Infrastructures Towards the Smart Grid: Design, Implementation, and Evaluation. IEEE Transactions on Smart Grid, March, 4 (1): 170-183. DOI: 10.1109/tsg.2012.2225453
  29. Xin Q., Nguyen T.A., Guggenberger J.D., Crow M.L. and Elmore A.C. (2014). A Field Validated Model of a Vanadium Redox Flow Battery for Microgrids. IEEE Transactions on Smart Grid, July, 5 (4): 1592-1601. DOI: 10.1109/tsg.2014.2310212
  30. Xinghuo Y., Cecati C., Dillon T. and Simões M.G. (2011). The New Frontier of Smart Grids. IEEE Industrial Electronics Magazine, September, 5 (3): 49-63. DOI: 10.1109/mie.2011.942176
  31. Zaheeruddin and Manas M. (2015), A New Approach for the Design and Development of Renewable Energy Management System through Microgrid Central Controller. Energy Reports, 1: 156-163. DOI: 10.1016/j.egyr.2015.06.00
  32. Zaheeruddin and Manas M. (2015). Analysis of Design of Technologies, Tariff Structures and Regulatory Policies for Sustainable Growth of the Smart Grid. Energy Technology and Policy, 2 (1): 28-38. DOI: 10.1080/23317000.2015.1015083
  33. U.S. Department of Energy. Smart Grid/Department of Energy. Online available: http://energy.gov/oe/services/technology-development/smart-grid. Last accessed: 27.7.2015.
  34. Technology Roadmap for Energy Storage. Online available: http://www.iea.org/publications/freepublications/publication/technologyroadmapenergystorage.pdf. Last accessed on 29.7.2015.
  35. Strbac G. (2010). Technical and Regulatory Framework for Smart Grid Infrastructure: A Review of Current UK Initiatives. Proc. of IEEE Power and Energy Society General Meeting held in Minneapolis, U.S.A. during 25-29 July 2010: 1-3.
  36. Staff Report of Federal Energy Regulatory Commission on Demand Response & Advanced Metering (2014). Online available: http://www.ferc.gov/legal/staff-reports/12-08-demand-response.pdf.
  37. Srivastava A.K., Kumar A.A. and Schulz N.N. (2012). Impact of Distributed Generations with Energy Storage Devices on the Electric Grid. IEEE Systems Journal, March, 6 (1): 110-117. DOI: 10.1109/jsyst.2011.2163013
  38. Singh R., Sood Y.R., Padhy N.P. and Venkatesh B. (2010). Analysis of Renewable Promotional Policies and their Current Status in Indian Restructured Power Sector. Proc. of IEEE Transmission and Distribution Conference and Exposition (IEEE PES-2010) held at New Orleans, U.S.A during 19-22 April, 2010: 1-8.
  39. Short W., Packey D., Holt T. (1995). A Manual for Economic Evaluation of Energy Efficiency and Renewable Energy Technologies. National Renewable Energy Laboratory, March: 1-120. Online available: http://www.nrel.gov/csp/troughnet/pdfs/5173.pdf. DOI: 10.2172/35391
  40. Sechilariu M., Baochao Wang and Locment F. (2013). Building Integrated Photovoltaic System with Energy Storage and Smart Grid Communication. IEEE Transactions on Industrial Electronics, April, 60 (4): 1607-1618. DOI: 10.1109/tie.2012.2222852
  41. Saharia B.J., Manas M. and Talukdar B.K. (2016), Comparative Evaluation of Photovoltaic MPP Trackers: A Simulated Approach. Cogent Engineering Journal. DOI: 10.1080/23311916.2015.1137206
  42. Rahiman F.A., Zeineldin H.H., Khadkikar V., Kennedy S.W. and Pandi V.R. (2014). Demand Response Mismatch (DRM): Concept, Impact Analysis, and Solution. IEEE Transactions on Smart Grid, July, 5 (4): 1734-1743. DOI: 10.1109/tsg.2014.2309995
  43. Power Quality Application Guide: Voltage Disturbances Standard EN 50160. Online available: http://admin.copperalliance.eu/docs/librariesprovider5/power-quality-and-utilisation-guide/542-standard-en-50160-voltage-characteristics-in.pdf.
  44. Online available: https://en.wikipedia.org/wiki/Renewable_portfolio_standard. Last accessed: 15.8.2015.
  45. Online available: http://www.renewableenergyworld.com/rea/news/article/2009/07/house-and-senate-move-to-address-climate-and-energy-mixed-bag-for-clean-energy?cmpid=WNL-Wed nesday-July8-2009. Last accessed: 15.7.2015.
  46. Meeus L., Saguan M., Glachant J.M. and Belmans R. (2010). Smart Regulation for Smart Grids Working Paper 2010/45, Florence School of Regulation, RSCAS, European University Institute.
  47. Mason W.E. (2010), Testimony on Energy Policy and Innovation. USFederal Energy Regulatory Commission. Online available: http://www.ferc.gov/EventCalendar/Files/ 20100701105022-Emnett-Testimony-07-01-10.pdf.
  48. Lo Schiavo L., Delfanti M., Fumagalli E., Olivieri V. (2013). Changing the Regulation for Regulating the Change: Innovation-Driven Regulatory Developments for Smart Grids, Smart Metering and e-Mobility in Italy. Energy Policy, 57: 506-517. DOI: 10.1016/j.enpol.2013.02.022
  49. Levelized Cost and Levelized Avoided Cost of New Generation Resources in the Annual Energy Outlook 2015 Report. Online available: http://www.eia.gov/forecasts/aeo/pdf/electricity_generation.pdf.

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Munish Manas, Development of preferential regulations, transmission tariffs, and critical technological components for the promotion of smart grid globally in "ECONOMICS AND POLICY OF ENERGY AND THE ENVIRONMENT" 2/2015, pp 107-130, DOI: 10.3280/EFE2015-002008