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Power grids for high penetration of solar photovoltaic power plants- a review


Affiliations
1 Energy Efficiency & Renewable Energy Division, Central Power Research Institute, PO Box 8066, Sir CV Raman Road, Bangalore-560080, India
     

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This paper presents a review of power grids which have high component (~ 80 %) of solar photovoltaic (SPV) plants. It can be concluded that variability or infirmness of SPV is controllable to a large extent through detailed probabilistic modeling of the variation patterns. The immediate, short term and long term variation of SPV power plants has been discussed in depth. In a grid composed of a large number of 1-50 MW plants, the dispatchable power can be scheduled to as high as 80 % of the declared capacity in that time slot (since SPV varies in every time slot).

Keywords

Solar photovoltaic, synchronous inertia, synthetic inertia, rate of change of frequency, governor droop, automatic generation control, primary response, secondary response.
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  • Power grids for high penetration of solar photovoltaic power plants- a review

Abstract Views: 237  |  PDF Views: 0

Authors

M. Siddhartha Bhatt
Energy Efficiency & Renewable Energy Division, Central Power Research Institute, PO Box 8066, Sir CV Raman Road, Bangalore-560080, India

Abstract


This paper presents a review of power grids which have high component (~ 80 %) of solar photovoltaic (SPV) plants. It can be concluded that variability or infirmness of SPV is controllable to a large extent through detailed probabilistic modeling of the variation patterns. The immediate, short term and long term variation of SPV power plants has been discussed in depth. In a grid composed of a large number of 1-50 MW plants, the dispatchable power can be scheduled to as high as 80 % of the declared capacity in that time slot (since SPV varies in every time slot).

Keywords


Solar photovoltaic, synchronous inertia, synthetic inertia, rate of change of frequency, governor droop, automatic generation control, primary response, secondary response.



DOI: https://doi.org/10.33686/prj.v10i3.189478