The Union cabinet decided last month to double India’s solar power generation capacity, from 20 GW to 40 GW, by setting up 50 solar parks, which are solar projects with a capacity of 500 MW or more concentrated in one area. But this additional 20 GW would mean acquisition of at least 80,000 acres of land, thrice Jaipur’s area, and possibly a problematic move in a land-starved country.
There are already signs of trouble with three recorded conflicts related to land acquisition for renewable energy projects. One of these involves the ultra-mega solar park — that is, one with a capacity of 500 MW or more — in Anantapur district in Andhra Pradesh, according to Land Conflict Watch, a mapped online repository of land conflicts across India. Delays in land acquisition add to the cost of the project, also making developers wary of investment.
India’s record with solar power generation does not offer reasons to be optimistic either. With just a few days left for end of financial year 2016-17, India still has over 70 per cent of its target to achieve, while targets for upcoming years are even higher.
The latest plan now is to generate 40 per cent of India’s solar renewable target of 100 GW by 2022 from solar parks and ultra-mega solar power projects. The augmented solar capacity, when operating at full capacity, will generate 64 billion units of electricity annually, cutting 55 million tonnes of CO2 per year over its life cycle, according to the Ministry of New and Renewable Energy (MNRE).
For the sake of comparison, 64 billion units of electricity per year would be enough to power two Delhis, which required 31.1 billion units of electricity during 2016-17, according to the Load Generation Balance Report of the Power Ministry that records energy requirement and availability in the country for the upcoming year.
India currently has one of the largest renewables expansion programmes in the world, aiming as it does to install 175 GW of capacity by 2022 — over thrice the current capacity of 50 GW — in line with its Intended Nationally Determined Contribution (INDC). INDC refers to the promise of alternate energy generation made by countries in the 2015 Paris Agreement with a view to cooling a rapidly-warming planet.
As of January 2017, India’s cumulative installed solar capacity from all sources was just over 9 GW, and crossed 10 GW in March. To achieve targets, the country will therefore have to install about 90 GW more in the coming five years, a target that might not be achievable.
At present, there is a marked gap between the targets and achievements. For example, against the target of installing 12,000 MW of solar capacity in 2016-17, by January 2017, only 2,472 MW had been installed.
The largest contributors to solar energy in India will now be rooftop solar installations (40 per cent) and large solar parks (40 per cent). The last 20 per cent will come from utility scale solar projects, with a very small percentage coming from off-grid solar installations.
Capacity addition of rooftop solar has been slow to take off. By November 2016, only 0.5 MW of solar rooftop capacity was installed, while 3 GW was sanctioned and under installation, according to MNRE.
“The decentralised nature of rooftop installations makes progress difficult, because you need to engage about 500 consumers on average (on the assumption that one household installs a 2-W capacity on average) to reach 1 MW, so the administrative process is far more expensive,” said Abhishek Jain, senior programme lead at the Council on Energy Environment and Water (CEEW), a research institution based in New Delhi.
Large solar parks come with several benefits for individual producers such as land clearances, development of infrastructure such as roads and transmission systems, and water access.
By mid-2016, a total of 34 solar parks spread over 21 states were given approvals. These had an aggregate capacity of 20 GW. Details of state-wise division for the parks show that Andhra Pradesh, Madhya Pradesh, Gujarat and Karnataka had the most commissioned projects.
Being part of a solar park also means that it is easier to raise finance at a lower cost for individual producers within the park. It also ensures that off-take is guaranteed, or else underwritten, which again reduces risk.
With the additional 20 GW, the number of solar parks is estimated to increase to 83. Information about areas where these additional parks will be installed, or how the installation mix will change, is not yet available.
Solar tariffs in India have been falling since 2010 — from Rs 10.95 per kWh in December 2010 to a level tariff of Rs 3.30 per kWh achieved last month by the 750-MW Rewa solar park project in Madhya Pradesh.
Solar parks are perhaps currently the best way to produce renewable energy because they take care of problems faced by smaller producers, which include non-reliability with off-take of produced power, and problems of land acquisition, which is becoming increasingly problematic.
“Land acquisition poses a challenge for developers but solar parks enable developers easy access to land, clearances, and evacuation infrastructure. As seen in the recent Rewa solar park bid, the risk of curtailment has also been eased by a 100 per cent payment guarantee offered by the state government,” Kanika Chawla, senior programme lead at CEEW, told IndiaSpend.
As a general rule, one MW of ground-mounted solar installations require about four acres of land, down from five acres due to advancements in solar cell technology. Jose Abreu Womens JerseyShare This