Barriers for RTPV in India
Boosting rooftop 'parks' can help India achieve solar energy goal, writes Saptak Ghosh.
BY Saptaik Ghosh13 July 2017 3:35 PM GMT
Saptaik Ghosh13 July 2017 3:35 PM GMT
Recent newspaper articles have highlighted the rooftop photovoltaic (RTPV) sector's sluggish growth in India. The articles claim that based on the present outlook, the 40 GW target for 2021-22 will not be achieved.
Greenpeace India's report shows that RTPV uptake in major cities such as Delhi, Mumbai, Bengaluru, Hyderabad, and Chennai has been abysmal. While the large-scale ground-mounted solar parks have gathered critical mass in India with tariffs as low as Rs 2.44/kWh, RTPV is lagging behind significantly, comprising only about 1.46 GW of today's 12.5 GW installed solar capacity.
Statements from officials insinuating that Indians want to use their rooftops for alternative purposes such as drying clothes, sleeping, and hosting parties are extremely misleading. RTPV systems can easily be designed with raised mounting structures, at low incremental costs, to keep enough free space and provide a cooling effect below.
A deeper look into the problem reveals the major barriers hindering the growth of RTPV in India.
A typical kW level system costs Rs. 50,000-65,000/kWp which is 1.25-1.75 times more than ground-mounted behemoths. For a lucrative business case for prospective consumers, with a healthy internal rate of return (IRR>13 per cent) and payback period (<7 years), the net-metering (NM)/ gross-metering (GM) rate should be in the range of Rs 5.5-6.5/kWh.
However, most distribution companies (Discoms) in India are suffering financially and cannot afford to pay such rates. Keeping this conundrum in mind, State Electricity Regulatory Commissions (SERCs) fix NM/GM rates at Average Pooled Power Purchase Cost (APPC) of the Discoms, which are rarely over Rs 4/kWh. Karnataka has more attractive rates, but delays in payments from Discoms have led to banks becoming wary of lending to this sector. Delhi offers a Generation Based Incentive (GBI) of Rs 2/kWh above APPC for the first three years, however, that barely pushes IRR to 11 per cent. The Central government offers a capital subsidy of 30 per cent but consumers' experiences show that the hassles to avail this far outweigh the prize. With unviable business cases and lack of access to finance, it is no wonder that RTPV faces stagnation in India.
To provide a much-needed thrust to this sector, it is imperative to bring down costs to a level where Discoms are comfortable (near the APPC). For large solar parks, a host of incentives, like readily available land and evacuation infrastructure, and risk-free Power Purchase Agreements (PPAs) with Reserve Bank of India backing, have helped developers reduce costs drastically.
Unfortunately, the same efforts have not been extended to RTPV, apart from Solar Energy Corporation of India (SECI) recently tendering out 1.5 GW across all Indian states on government buildings.
A more innovative approach needs to be taken by the Central and state governments, in collaboration with Discoms, to promote RTPV. A thorough potential assessment exercise needs to be undertaken for all major cities and towns to identify suitable rooftops, after taking shading aspects into consideration.
Unlike ground-mounted systems, an RTPV system's economics is heavily impacted by shadows of neighbouring buildings, poles, trees and obstructions. Thus, 3D imaging and GIS with aerial photography need to be employed to accurately calculate the potential on each rooftop along with the business case based on consumption data provided by the Discoms. Through this exercise, it is possible to obtain a detailed geo-referenced list of suitable rooftops and construct robust yet implementable road maps for RTPV implementation.
With outputs from this exercise across the country, state nodal agencies (SNAs), in collaboration with the respective Discoms, can divide each city/town into zones with equal cumulative RTPV capacities. Each zone can then be tendered out to one or two developers. This way, developers will have cumulative capacities in hundreds of MWs instead of individual kW systems. With assured demand and high volumes, developers will be able to procure PV modules and balance of system components in bulk, much like solar park developers.
Although developers will still have to convince prospective consumers, the customer acquisition costs will reduce because they will have to approach only the customers who have been deemed suitable by the potential assessment study. This aggregation model will definitely lead to a 25-30 per cent reduction in RTPV costs and bring NM/GM tariffs closer to the APPC, thereby benefitting both the consumers and the Discoms.
It is estimated that to carry out detailed potential assessment studies along with RTPV roadmaps to achieve 40 GW (and go much beyond) will cost around Rs 120 crore -- much less than what the government spends on one solar park. The corpus for the elusive 30 per cent capital subsidy can be spent for these studies, which will help in planning sustainable RTPV growth. With scientific assessment studies and policy shifts to innovative aggregator models, RTPV might just get the boost it needs and the 40 GW target will not seem so ambitious or challenging any more.
(Saptaik Ghosh is a Research Scientist at the Center for Study of Science, Technology and Policy [CSTEP], Bengaluru. The views expressed are srtictly those of CSTEP.)
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