Besides grid discipline, the power generation configuration in India needs to change to stabilise grids
Two consecutive days of grid collapse has left almost half of India’s population without power. Three major grids—northern, north-eastern and eastern—have crashed. Over 20 states have reportedly been affected. Trains have been stalled, markets have closed down, and institutions and offices have been forced to announce holidays. This is nothing short of a national calamity.
What are the reasons for the massive grid failure? The simple reason is that states have withdrawn more power than they are entitled to, thereby tripping the grid. As the peak load deficit is about 15,000 MW, without grid discipline, such failures are bound to happen. Most states do not have any system in place that can stop them from withdrawing more power from the grid than what is allocated.
But there is another fundamental reason that we are not addressing. More than 80 per cent of the power generated in the country comes from thermal power plants –coal, lignite and gas-based. Another three per cent is from nuclear power plants. Hydropower plants produce about 12-13 per cent (including imports from Bhutan), and the remaining 2-3 per cent is from renewable sources—mostly wind and solar.
We, therefore, rely largely on base load power plants—thermal, nuclear and even some hydropower plants operate at base loads –to meet our electricity needs. We have very little flexibility on peak load power plants. So, when the peak demand surges, we have no source to supply electricity to the grid.
With a drought looming large and no sign of monsoons, millions of air conditioners keep humming in our cities while farmers have begun using more power to pump out ground water for irrigation. The result: higher demand and low supply even during non-peak periods.
Electricity generation for the month of June illustrates this problem:
Apart from grid discipline and setting up systems that ensure that states do not overdraw power, we will have to change our electricity generation configuration for the stability of the grid. In this context, large-scale installation of renewable energy plants like wind and solar plants will play a major role in stabilising the grid, as their power generation profile—especially that of solar—matches the peak demand in the country.
—Chandra Bhushan, deputy director general of Centre for Science and Environment (CSE)
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