Integration of multivariate distributed energy resources for demand response: applications in the Indian scenarios
- Author(s): Reji Pillai 1 ; Girish Ghatikar 1, 2 ; Akshay Ahuja 1
-
-
View affiliations
-
Affiliations:
1:
India Smart Grid Forum , Delhi , India ;
2: Electric Power Research Institute , Palo Alto, California, USA
-
Affiliations:
1:
India Smart Grid Forum , Delhi , India ;
- Source:
Volume 2017, Issue 1,
October
2017,
p.
1849 – 1852
DOI: 10.1049/oap-cired.2017.0755 , Online ISSN 2515-0855
Full text loading...
Inspec keywords: wind power; electric vehicles; solar power; distributed power generation; vehicle-to-grid; demand side management; energy storage; hydroelectric power
Other keywords: solar power; DER; power 100 GW; biomass; Indian scenario; power 10 GW; resources automate monitoring; power 175 GW; DR programme; resources actuation; wind power; power 60 GW; smart grid technologies; demand-side management; vehicle to grid technology; power 5 GW; energy storage; renewable energy generation; electric vehicle; sustainable development; distribution utility; multivariate distributed energy resource integration; cost-effective integration; demand response:; small hydro projects
Subjects: Hydroelectric power stations and plants; Transportation; Wind power plants; Distributed power generation; Power system management, operation and economics; Solar power stations and photovoltaic power systems
References
-
-
1)
-
5. Ghatikar, G., Yin, R., Deshmukh, R., et al: ‘Characterization and effectiveness of technologies for India's electric grid reliability and energy security’. Proc. India Smart Grid Week, New Delhi, India, March 2015. LBNL-6994E.
-
-
2)
-
6. Central Advisory Committee (CAC): Proc. 19th Meeting CAC, Central Electricity Regulatory Commission, 2014, Available at http://www.cercind.gov.in/2014/advisor_commette/19.pdf.
-
-
3)
-
3. Silversprings: ‘How the smart grid enables utilities to integrate electric vehicles’, 2013, Available at https://www.silverspringnet.com/wp-content/uploads/SilverSpring-Whitepaper-ElectricVehicles.pdf.
-
-
4)
-
1. Ministry of New and Renewable Energy. Available at http://mnre.gov.in/mission-and-vision-2/achievements/.
-
-
5)
-
7. Ministry of Power, Government of India. Available at http://powermin.nic.in/en/content/power-sector-glance-all-india.
-
-
6)
-
2. International Renewable Energy Agency (IRENA), Remap Renewable Energy Prospects for India, May 2017 Available at http://www.irena.org/DocumentDownloads/Publications/IRENA_REmap_India_paper_2017.pdf.
-
-
7)
-
4. Yin, R., Ghatikar, G., Deshmukh, R., et al: ‘Findings from an advanced demand response smart grid project to improve electricity reliability in India’. Proc. India Smart Grid Week, New Delhi, India, March 2015. LBNL-6982E.
-
-
8)
-
9. Fitzgerald, G., Nelder, C., Newcomb, J.: ‘Electric vehicles as distributed energy resources’ (Rocky Mountain Institute, Boulder, CO, 2016).
-
-
9)
-
8. Kenning, T.: ‘India's NTPC tendering for 625MW solar in Andhra Pradesh’ (PV-Tech, 2016). Available at http://www.pv-tech.org/news/indias-ntpc-tendering-for-625mw-solar-in-andhra-pradesh.
-
-
1)