Mohd Saquib

Short-term variability in the power generated by utility-scale solar photovoltaic (PV) plants is a cause for concern for power system operators. Without quantitative insights into such variability, system operators will have difficulty in exploiting grid integrated solar power without negatively impacting power quality and grid reliability. In this paper, we describe a statistical method to empirically model the ramping behavior of utility-scale solar PV power output for short time-scales.

India’s present installed capacity, 1,62,366.80 MW excluding captive power, allows for a modest per capita consumption of some 800 kWh/capita (CSTEP’s estimate). The mix is dominated by coal, which is only 53% of the capacity but higher when it comes to generation. The generation is insufficient to meet the demand, resulting in a shortfall of both peak capacity as well as energy overall (officially 12.6% and 9.9%, respectively). There is a large push towards increasing supply, with an aim of tripling capacity in the coming 1-2 decades.

This study was commissioned by Karnataka Electricity Regulatory Commission (KERC) to identify key implementable strategies for the state of Karnataka for achieving the objectives of 24x7 Power for All The study describes the power supply scenario in the State including estimates for future energy demand The status of 24x7 power supply is analysed along the dimensions of access (electrification), adequacy (per capita consumption), affordability (cost of supply), availability (duration of supply), and reliability Future plans for generation capacity are analysed to determine the range of fore

A presentation on storage options and materials for renewable energy applications

This paper aims to inform the tariff setting process for wind resource in Karnataka, so that investments in wind infrastructure can be incentivized taking into consideration resource variations. This work presents a range of levelized tariffs for the on-shore wind potential of the state. The range is a result of the variation in capacity utilization factors estimated for various classes of Wind Power Density (WPD) in the state, for waste and scrub forest land categories, at 80 m and 100 m hub heights.

Till recently, the on-shore wind power potential in India was officially estimated to be 49 GW, out of which 17 GW forms part of the country’s mainstream energy mix. However, recent studies have indicated this potential to be underestimated. A few studies have estimated wind potential in India to be over 2000 GW and the official wind resource potential was recently revised to 102 GW by the Center for Wind Energy Technology (C-WET), at 80 m hub height.

24x7 Power for All: Strategies for Karnataka .