In: IEEE Power and Energy Society General Meeting. Application of cutout type reclosers on distribution lateral circuits-a field study. CRC Press, 2004Ĭarlson N, Asgeirsson H, Lascu R, Benaglio J, Ennis M G. In: IEEE Power Engineering Society General Meeting. Microgrids in the Evolving Electricity Generation and Delivery Infrastructure.
A literature survey on smart grid distribution: an analytical approach. Energy Procedia, 2013, 34: 282–290Ĭardenas J A, Gemoets L, Ablanedo Rosas J H, Sarfi R. Opportunities and challenges of integrating renewable energy in smart grid system. Smart grid initiative for power distributionutility in India. Sinha A, Neogi S, Lahiri R N, Chowdhury S, Chowdhury S P, Chakraborty N. Strategy and implementation of smart grids in India. On the progress of renewable energy integration into smart grids in India. Mukhopadhyay S, Soonee S K, Joshiand R, Rajput A K. Development of Super Smart Grids for a more efficient utilisation of electricity from renewable sources. Journal of Cleaner Production, 2009, 17(10): 889–895īattaglini A, Lilliestam J, Haas A, Patt A. Some of the papers projected in this work also give a brief overview of the necessity of the smart grid.ĭovi V G, Friedler F, Huisingh D, Klemeš J J. This paper presents an overview on the present state-of-the-art of smart grid technologies and broadly classifies the papers referred into two major areas, papers based on improvement of operational efficiency in smart grids and papers based on smartness in maintaining the demand supply gap.
#Ieee transactions on smart grid manuscript central full#
Apart from this, there is a necessity to manage the demand supply gap in the smart grid by optimally scheduling the generators or by effectively scheduling the demand side resources instead of going for the traditional methods like partial or full load shedding. The smart grid can play a major role in the upcoming days to come because there is a necessity to integrate coordinated renewable energy resources into the grid and to operate the grids at a higher efficiency considering many aspects including reliability of the supply. Smart technologies when used in the traditional grid infrastructure will provide a different environment and working conditions in the grid by bringing the required smartness into the grid, called the smart grid.
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