Go to ...

RSS Feed

Amit Dave/Reuters

Why increasing India’s solar energy capacity won’t work


From The Wire: The planned ten-fold increase in solar energy will add on an average only 20% of the total capacity, making little difference to India’s emissions. The government has not reduced its coal output targets and plans to raise coal output from the current 550 million tonnes to nearly a billion tonnes by 2022.

Armin Rosencranz & Kamakshi Puri , The Wire

The future of renewable energy in India presumably rests on achieving the ambitious solar power target set by the country. In its Intended Nationally Determined Contributions (INDC) under the Paris Agreement, India committed to increase the amount of electric power from clean energy resources to 40% by 2030. A total of 175 GW of renewable energy installed capacity was promised to be achieved by 2022, of which 100 GW is the target set for solar power alone.

The myth

A 2014 performance analysis study by the Malpani group, a pioneer in the industry of power generation, calculated that for every megawatt of solar power capacity installed, an average output of a mere 19% is extracted.

One of India’s largest solar power producers, which recently set up ‘the world’s largest solar power plant’ in Tamil Nadu, owns a solar power plant in Bitta village, Gujarat. With a total capacity of 40 MW, the electricity generation of this plant is about 63.8 million units, merely at 18.2% of its total capacity. This enormous difference in the power generation is not due to any particular inefficiency of the plant but due to the drawbacks in the nature of solar power itself.

For obvious reasons – night, monsoons, dust, storms – solar power is neither produced all day nor throughout the year. Thus, the total maximum capacity of a solar power plant is never met to its fullest.

To understand the scope of solar power in the country, one must distinguish between the installed grid capacity and the capacity utilisation factor (CUF). The installed capacity is the maximum output that can be extracted from a plant. The CUF, as it is commonly called, is the real output of the plant as compared to the plant’s theoretical maximum output. CUF is the measure of how well a plant can be utilised. It is presented as a percentage of the installed capacity of a plant.

According to data released by the Ministry of New and Renewable Energy (MNRE) in May 2013, India’s CUF of solar photovoltaic is anywhere between 11-31%. In the draft national electricity plan released by the central electricity authority in December 2016, the CUF of a solar power plants is stated to be around 20%.

The major problem with such a low CUF is highlighted when one realises that all data released by the government gives targets on the basis of installed capacity. These targets look ambitious at first glance. However, any real shift to renewable energy as expected by the citizens is unlikely.

As per data released by the MNRE, cumulative capacity of solar is 6.7 GW for the year ended March 31, 2016. This will, in effect, generate power worth only a fifth of such a capacity as opposed to if it were to be installed in other modes of generation. The measurement of solar power in terms of GW of installed capacity is, therefore, fictitious. These should be rightfully measured by their effective producible output, and that would reveal India’s capacity to be a very low figure.

The commitment to increase solar power to 100 GW comes in two parts – increasing ground mounted grid connected solar power to 60 GW and increasing rooftop grid interactive solar power to 40 GW.

A majority of the target, that of 60 GW, is to be fulfilled by the scheme for developing solar parks and ultra mega solar power projects launched by the MNRE. The government under the said scheme approved a total of 34 solar parks with a total capacity of 20 GW in 21 different states.

India’s cumulative solar capacity has grown to almost 8 GW of ground-mounted grid connected power as on October 31, 2016, and this is rapidly rising. Sixteen major states have set personal targets for capacity addition under separate state solar policies. The capacity addition from these state targets adds up to 50 GW of power. Recalculating this figure in terms of CUF, the deliverable power is close to 10 GW.

The growth of rooftop solar in India is relatively low. As on the same date, October 31, 2016, rooftop solar contributes to an approximate total of 1GW of generated solar power. For this to increase to 40 GW in the next five years is a highly ambitious task for the government. Despite the government schemes providing up to 30% subsidy (70% in case of special category states) for rooftop solar and attractive feed-in tariffs offered by state regulators, the lofty cost of rooftop solar panels overrides the tangible benefit in the eyes of customers. Due to the instability in solar power production, the dependence of households with rooftop solar on coal based electricity/diesel generators will persist.

What this means for coal

When faced with the deceiving picture of the output from a major component of renewable energy and taking into account the promises made by the government of 24×7 electricity for all, the idea that India’s dependence on coal based power will decrease in the near future seems naïve. The government has not reduced its coal output targets and plans to raise coal output from the current 550 million tonnes to nearly a billion tonnes by 2022.

Even though the government’s plans show no further investments in coal power generation beyond 2017, several private mines have been allotted as recently as early 2015 for captive power generation at huge premiums. It is certain therefore, that coal power generation will grow many fold in absolute terms as coal consumption increases to 1.5 billion tonnes in the coming years.

What will this do for emissions?

India has not committed any absolute or concrete targets for reduction in its greenhouse gas emissions. The INDCs are in the form of percentages of fossil fuels in its GDP and in its total power basket. As the GDP will grow, India will reserve the leeway to keep spewing more greenhouse gases into the atmosphere. The absolute amount of greenhouse gas emissions will actually increase substantially. This is obviously not unknown to the country’s master planners, as the national electricity plan shows India’s emissions will actually rise from 806 million tonnes today to 983 million tonnes by 2022.

Achieving India’s solar energy commitments in terms of the target of 100 GW will be an astonishing task. The contribution from the rooftop solar programs envisioned is extraordinarily unlikely to fulfilled. To the average citizen, the much advertised ten-fold increase in solar power may seem like a game-changer for the renewable energy sector; however, on close examination it becomes clear that the power yield from this increased capacity on an average will be as little as 20% of the total capacity, and this will make little difference to India’s emissions. The ambitious targets publicised by the government prevaricate this position.

Armin Rosencranz is a professor of law at Jindal Global University, Sonipat, where Kamakshi Puri is a law student.

(Visited 184 times, 1 visits today)

Tags: , , , , , , , , , ,

3 Responses “Why increasing India’s solar energy capacity won’t work”

  1. Dr UN Nandakumar
    23rd April 2017 at 7:14 pm

    It is high time to redraft our energy policy taking into consideration the ground realities if we want sustainable growth and development on an eco-friendly socially acceptable and economically viable wicket. We have to really work for it.

  2. Shankar Sharma
    30th April 2017 at 12:30 pm

    The article in its eagerness to list the problems with solar power program seem to have missed many related issues:
    1. The CUF of about 20% in case of solar PV panels has been a known factor from the beginning. Hence more PV panels will be required to meet the growing electricity demand. This is well known, and the cost comparisons are done on this basis. Hence energy efficiency and demand side management need to be the primary planks of our energy policy. This fact also has been recognised worldwide.
    2. A large number of rooftop SPVs distributed all over the place will be able to address many of the contentious issues. The great advantage with solar PVs is that they are modular in nature. Additional capacity can be easily created, in most cases, by adding few panels. This is not possible in the conventional technologies.
    3. Since none of the conventional technologies are deemed suitable for the future, we have no other option but to try all other avenues. Solar, wind, bio-energy, ocean energy, and geothermal are the major ones in this regard. No single technology will be able to meet all the demand. A good combination of technologies has to be chosen.
    4. An objective analysis of the life-cycle-cost and life-cycle-emissions of various technologies have shown that solar and wind are the best technologies for the future.
    5. It would have been proper for the article to have discussed the alternatives.

    Shankar Sharma

  3. 21st December 2017 at 2:27 pm

    The solar target for India seems impossible to accomplish because all great things accomplished were impossible at some point in time.

    Remember that solar technology is still in its early stages. In 10 years from now our windows can easily capture solar energy, electric cars will replace the polluting cars, and solar panels will be so cheap that everyone will afford. They are already so much cheaper than 20 years ago. Just do the math…

Leave a Reply

Your email address will not be published.

More Stories From CLIMATE CHANGE