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Aravindan, M.
- Prospects of Offshore Wind Power Generation in India
Abstract Views :186 |
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Authors
Affiliations
1 Department of Electrical & Electronics Engineering, Arunai Engineering College, Tiruvannamalai 606 603, Tamil Nadu, IN
2 School of Electrical Engineering, Bahir Dar University, ET
3 SCSVMV University, Kancheepuram, and Assistant Executive Engineer/O&M/ Mambakkam, Tamil Nadu Generation and Distribution Corporation, Tamil Nadu, IN
1 Department of Electrical & Electronics Engineering, Arunai Engineering College, Tiruvannamalai 606 603, Tamil Nadu, IN
2 School of Electrical Engineering, Bahir Dar University, ET
3 SCSVMV University, Kancheepuram, and Assistant Executive Engineer/O&M/ Mambakkam, Tamil Nadu Generation and Distribution Corporation, Tamil Nadu, IN
Source
Indian Journal of Power and River Valley Development, Vol 70, No 1&2 (2020), Pagination: 5-9Abstract
To mitigate the global climate change and to enhance India’s renewable power generation capacity and to deploy low carbon energy production with improved energy efficiency, offshore wind generation is being suggested in this paper. Policy and regulatory framework aspects for achieving 5 GW offshore wind installations in the states of Gujarat and Tamil Nadu by the year 2032 with current practices and sophisticated technologies adopted throughout the world is presented. For effective implementation, suitable measures and actions to be taken by various stake holders are also mentioned.Keywords
Offshore Wind Power, Policy And Regulatory Framework, Wind Power Generators, AC-DC Power Converters, HVDC Transmission, Offshore Substation, Power Quality/stability Studies, Wind Farms.
References
- http://gwec.net/ [Accessed on 20.12. 2017]
- http://www.fowind.in/publications/report/FOWIND (2015), Offshore Tamil Nadu Pre-feasibility Report
- http://niwe.res.in/fowpi_workshop_presentation.php [Accessed on 18.12.2017]
- http://www.kb.fowpi.in/knowledge-bank/[Accessed on 18.12.2017]
- FOWIND[2017], From Zero to Five GW –Offshore Wind Outlook for Gujarat and Tamil Nadu (2018-2032) [Accessed on 20.12. 2017]
- Frede Blaabjerg; Ke Ma, Wind Energy Systems, Proceedings of the IEEE, Vo.105, No.11, pp. no. 2116- 2131, 2017.
- Istvan Erlich, Fekadu Shewarega, Christian Feltes, Friedrich W. Koch, Jens Fortmann, Offshore Wind Power Generation Technologies, Proceedings of the IEEE, Vol.101, No.4, pp. no. 891-905, 2013.
- Magnus Callavik, Michael Bahrman, Peter Sandeberg, Technology developments and plans to solve operational challenges facilitating the HVDC offshore grid, IEEE Power and Energy Society General Meeting, pp. 1-6, 2012.
- V. Hamidi, K. S. Smith, Smart grid technologies for connection of offshore wind farms, IET Conference on Renewable Power Generation, pp. no. 1 -4, 2011.
- Mohamed A. Ahmed and Young-Chon Kim, Communication Network Architectures for Smart-Wind Power Farms, Energies, Vol. 7, pp. no. 3900-3921, 2014.
- Mu Wei, Zhe Chen, Study of LANs access technologies in wind power system, IEEE PES General Meeting, pp.no. 1- 6, 2010.
- Chul Soo Seo, Sang Ho Park, Jun Shin Lee, Seung Tae Cha, Offshore wind power planning in Korea, 15th European Conference on Power Electronics and Applications (EPE), pp. no. 1-6, 2013.
- Status of Solar Photovoltaic Systems in India
Abstract Views :82 |
PDF Views:0
Authors
Affiliations
1 Department of Electrical and Electronics Engineering, Arunai Engineering College, Tiruvannamalai 606603, Tamil Nadu, IN
2 Research Scholar, SCSVMV University, Kancheepuram and Assistant Executive Engineer/O and M/, Mambakkam, Tamilnadu Generation and Distribution Corporation, Tamil Nadu, IN
3 School of Electrical Engineering, Bahir Dar University, ET
1 Department of Electrical and Electronics Engineering, Arunai Engineering College, Tiruvannamalai 606603, Tamil Nadu, IN
2 Research Scholar, SCSVMV University, Kancheepuram and Assistant Executive Engineer/O and M/, Mambakkam, Tamilnadu Generation and Distribution Corporation, Tamil Nadu, IN
3 School of Electrical Engineering, Bahir Dar University, ET
Source
Indian Journal of Power and River Valley Development, Vol 71, No 9&10 (2021), Pagination: 145-149Abstract
India is marching forward to achieve solar power generation, with a target of 100 GW by the year 2022. This paper reports the recent progress and developments in solar power sector in India. It also supports the prevailing progressive path for solar power projects and recommends future course of actions.Keywords
India, Initiatives, Solar PhotovoltaicsReferences
- http://mnre.gov.in//[Accessed on 15.12.2017]
- www.irena.org.IRENA (2017): RE thinking Energy 2017: Accelerating the global energy transformation. International Renewable Energy Agency, Abu Dhabi.[Accessed on 23.01.2017]
- http://fs-unep-centre.org/publications/global-trendsrenewable energy-investment-2017 [Accessed on 03.05.2017]
- REN21, Renewables 2016 global status report, http:// www.ren21.net/status-of-renewables/global- statusreport/[ Accessed on June 01, 2016]
- http://www.itrpv.net/International Technology Roadmap for Photovoltaic, Eighth Edition, March 2017 [Accessed on 30.03.2017]
- V. Saravanan,M. Arumugam, R. Venkatesan ¯Progress of solar photovoltaic systems in India 32nd European Photovoltaic Solar Energy Conference and Exhibition (EUPVSEC 2016), Munich, Germany, 2016, pp.2933 – 2936.
- Installed Capacity, November 2017, Central Electricity Authority, Ministry of Power, Government of India, http://www.cea.nic.in/monthlyinstalledcapacity.html (Accessed on 15.12.2017)
- Power Sector report, July 2017. India Brand Equity Foundation, Department of Commerce, Ministry of Commerce and Industry, GoI. http://www.ibef.org/01.09.2017)
- http;//niti.gov.in//Report_on_India’s_RE_Roadmap_ 2030-full_report-web.pdf/Report onIndia’sRenewable Electricity Roadmap 2030. Toward Accelerated Renewable Electricity Deployment.NITI Aayog.
- http://www.cercind.gov.in/Draft_reg.html Draft CERC (Terms and Conditions for Tariff determination from Renewable Energy Sources) Regulations, 2017 (Accessed on 10.04.2017)
- http://powermin.nic.in/ Guidelines for Tariff Based Competitive Bidding Process for Procurement of Power From Grid Connected Solar PV Power Projects– Resolution dated 3.8.2017
- V. Saravanan,M. Arumugam, S. Ganesh Babu Development of Solar Parks in India 26th International Photovoltaic Science and Engineering Conference (PVSEC-26), Singapore, 2016 .
- V. Saravanan, M. Arumugam Solar photovoltaic systems in India: progress, barriers, challenges, impacts, merits, recommendations and vision for the future All India Power Seminar 2016 (Present Scenario in Power Sector and Future Challenges) on the eve of Diamond Jubilee Celebrations, NLC India Limited (Formerly Neyveli Lignite Corporation Limited), Neyveli, Tamilnadu, India. (pg.2 to 8, 88 to 102, Renewable Energy Section)
- http://teda.in/[Accessed on 10.04.2017]
- www.solarrooftop.gov.in [Accessed on 23.01.2017]
- https://play.google.com/store/apps/details?id=nicmnre.nicspvapplication&hl=en [launched on
- /01/2017]
- Smart Metering and Big Data Analytics in Smart Grid
Abstract Views :99 |
PDF Views:0
Authors
Affiliations
1 Department of Electrical & Electronics Engineering, Arunai Engineering College, Tiruvannamalai 606 603, Tamil Nadu, IN
2 Research Scholar, SCSVMV University, Kancheepuram & Assistant Executive Engineer / O&M / Mambakkam, Tamilnadu Generation and Distribution Corporation, Tamil Nadu, IN
3 School of Electrical Engineering, Bahir Dar University, ET
1 Department of Electrical & Electronics Engineering, Arunai Engineering College, Tiruvannamalai 606 603, Tamil Nadu, IN
2 Research Scholar, SCSVMV University, Kancheepuram & Assistant Executive Engineer / O&M / Mambakkam, Tamilnadu Generation and Distribution Corporation, Tamil Nadu, IN
3 School of Electrical Engineering, Bahir Dar University, ET
Source
Indian Journal of Power and River Valley Development, Vol 72, No 9&10 (2022), Pagination: 156-160Abstract
Smart metering (SM) provides value added features such as automated billing, customer relationship management when compared to existing metering system. In this paper, capabilities, features, benefits and performance factors of SM are discussed. Various cyber attacks on smart meters and implementation of big data analytics on smart meters are also detailed.Keywords
Smart Grid, Smart Metering, Cyber Attacks, Big Data AnalyticsReferences
- Javier Leiva Alfonso Palacios, José A. Aguado (2016): “Smart metering trends, implications and necessities: A policy review”. Renewable and Sustainable Energy Reviews 55:227–233.
- Damminda Alahakoon, Xinghuo Yu (2016): “Smart Electricity Meter Data Intelligence for Future Energy Systems: A Survey.” IEEE Transactions on Industrial Informatics, 12(1): 425-436.
- Adam Hahn, Manimaran Govindarasu (2011): “Cyber Attack Exposure Evaluation Framework for the Smart Grid, IEEE Transactions on Smart Grid, 2(4): 835-843.
- Konark Sharma, Lalit Mohan Saini (2015) “Performance analysis of smart metering for smart grid: An overview” Renewable and Sustainable Energy Reviews, 49:720–735.
- www.globalsmartgridfederation.org/GSGF report/ smart meter security survey/August 2016.
- Applications of Advanced Metering Infrastructure in Electricity Distribution, https://openknowledge.worldbank.org/handle/10986/12948.Washington, DC, 2011.
- Hassan Farhangi (2010): “The path of the Smart grid”. IEEE Power & Energy Magazine, (Jan/Feb)18-28.
- http://www.tec.gov.in/Technical report on M2M enablement in power sector/TR-S&D-M2M-002- 001, released on 12.05.2015.
- www.indiasmartgrid.org/ ISGF-BNEF Knowledge Paper on AMI Rollout Planfor India published at ISGW 2017.
- Soma Shekara Sreenadh Reddy Depuru, Lingfeng Wang, Vijay Devabhaktuni. (2011): “Smart meters for power grid: Challenges, issues, advantages and status”. Renewable and Sustainable Energy Reviews 15: 2736–2742.
- Yeliz Yoldaº, Ahmet Önena, S.M. Muyeen, Athanasios V. Vasilakos, Ýrfan Alan (2017): “Enhancing smart grid with microgrids: Challenges and opportunities Renewable and Sustainable Energy Reviews 72:205– 214.
- Haibo He, Jun Yan (2016): “Cyber-physical attacks and defences in the smart grid: a survey”, IET CyberPhys. Syst., Theory Appl., 1(1):13–27
- Kaile Zhou, Chao Fub, Shanlin Yang (2016): “Big data driven smart energy management: From big data to big insights. Renewable and Sustainable Energy Reviews 56(2016) 215–225
- Chunming Tua,b, Xi He, Zhikang Shuai, Fei Jiang (2017): “Big data issues in smart grid– A review” Renewable and Sustainable Energy Reviews 79: 1099–1107.
- Discussions and deliberations by V. Saravanan and M. Aravindan at 1st Power Utility Conference for Collaborative Growth, Distribution Utility Meet, DUM 2017, organized by Technology Innovation Centre, Bangalore Electricity Supply Company Ltd (BESCOM) in association with India Smart Grid Forum(ISGF) and Institute of Electrical & Electronics Engineers (IEEE) at The Sheraton Grand, Bengaluru, India on 29-30 December 2017.
- Discussions and deliberations by V. Saravanan at ISGAN Knowledge Exchange on Distributed Generation, Microgrids and Smart Metering organized by the International Smart Grid Action Network (ISGAN), in partnership with National Smart Grid Mission, Ministry of Power, Government of India at Central Power Research Institute, Bengaluru, India on 14 November 2017.