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Can India Scale to Meet to its RE Targets?

WriteCanvas News


CEEW, the independent think tank has raised some eye-opening questions regarding India’s RE target achievements. As per them, scaling India’s renewables beyond 1,500 GW will face considerable land, water, population, and climate challenges.

It is assessed that India has a renewable energy (RE) potential of over 24,000 GW.

India currently has an installed RE capacity of 150 GW, and up to 1,500 GW, the constraints are relatively manageable. But reaching the ~7,000 GW required to achieve net zero emissions by 2070 will require a holistic approach.

Challenges such as land access, climate risks, land conflicts, population density, and other multiple constraints could intensify. This could narrow the runway to reach the net zero target.

These are the findings of a new study by the Council on Energy, Environment, and Water (CEEW). The study is titled, ‘Unlocking India’s RE and Green Hydrogen Potential: An Assessment of Land, Water, and Climate Nexus.’

According to the study, renewable energy including solar, wind, and green hydrogen, is crucial to realise India’s climate goals. However scaling up these technologies will require strategic land use, improved water management, and resilient power grid infrastructure.

Some challenges:

A considerable portion of India’s RE potential is in high-climate-risk and high-land-price areas—only 18 percent of onshore wind potential and 22 percent of solar potential are located in areas with low climate risks and low land prices, when looked at in isolation.

However, the challenges to realizing this potential increase when other constraints such as population density, land conflicts and seasonality of solar power are factored in.

  • Population density: Only 29 percent of onshore wind potential and 27 percent of solar potential in areas with a population density lower than 250 people/km2.
  • Land conflicts: About 35 percent of onshore wind potential and 41 percent of solar potential located in areas free from historical land conflicts.

However, earthquakes are less of a concern, as 83 percent of onshore wind and 77 percent of solar potential are located in low to moderate seismic zones.

States with high unconstrained RE potential:

As per the CEEW study:

  1. Rajasthan (6,464 GW), Madhya Pradesh (2,978 GW), Maharashtra (2,409 GW) and Ladakh (625 GW) have significant low-cost solar potential
  2. Karnataka (293 GW), Gujarat (212 GW), and Maharashtra (184 GW) offer considerable wind potential.
  3. Odisha and Madhya Pradesh, with high RE potential backed by land banks and infrastructure to evacuate renewable power and manage seasonality, could emerge as key players in meeting India’s renewable energy ambitions in the coming decades.
Green hydrogen push:

CEEW opines that green hydrogen could play a significant role in India’s clean energy transition.

The study estimates that the country could produce around 40 MTPA at a cost lower than $3.5/kg. Water availability and management impact the cost of green hydrogen projects.

This cost is expected to decrease further with advancements in electrolyzer technology and more efficient RE systems.

Low-cost green hydrogen could be produced in western and southern India, with Gujarat leading the production with an estimated potential of 8.8 MTPA at less than $3.5/kg, followed by Karnataka and Maharashtra with 5 MTPA each.

CEEW states:

Dr Arunabha Ghosh, CEO, CEEW, said, “India stands at a pivotal juncture in its energy transition. It has set out to do the near impossible: provide energy access to millions of people, clean up one of the world’s largest energy systems, and become a green industrial powerhouse. While our RE potential is vast, the road to net zero is fraught with challenges. From land conflicts and population density to the unpredictable but undeniable impact of climate change, every step forward will demand resilience and innovation.”

According to her, the scale of the task ahead is monumental. “Yet it is precisely this challenge that will define India’s legacy as a trailblazer for the Global South—a country that charts a low carbon pathway to prosperity against all odds.”

Hemant Mallya, Fellow, CEEW, said, “Land and water are critical resources for scaling up RE and green hydrogen in India. Prevention of desertification and innovative solutions to address land availability, such as agro-voltaics in horticulture and rooftop solar in dense Indian cities, will be essential. Moreover, as RE projects move into areas with higher climate risks, insurance companies could increasingly hesitate to provide coverage. Involving all stakeholders in the early stage of renewable project development and addressing climate risks will help ensure projects are commercially viable in the long run.”

Key takeaways:

The CEEW study recommends a comprehensive approach that includes all stakeholders to ensure that India’s ambitious RE and green hydrogen targets are met sustainably and equitably. The steps include:

  • Validating potential using higher-quality data and on-ground assessments is crucial, as current data may not fully reflect real conditions.
  • States should establish graded land banks that consider RE quality, water availability, and proximity to infrastructure to ensure rapid project development.
  • Evaluating and enhancing grid infrastructure resilience, particularly in regions with high RE seasonality, to support large-scale deployment.
  • Revising water management policies to prioritize energy production and assessing the need for surface water storage will be vital to sustaining green hydrogen production and mitigating resource challenges.

Link to the  report

 

 


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Beyond solar, wind and hybrid: Updates on India’s alternates in the RE sector

Sonal Desai


Any conversation on the renewable energy segment in India immediately seamlessly glides toward solar power. The reason is simple: solar currently dominates the RE segment. Today’s blog presents the scope of other alternates gaining momentum

India, the world’s fourth-largest electricity consumer and third-largest renewable energy producer, installed 40% of its energy capacity in 2022 from renewable sources. 

As of November 2023, India’s installed non-fossil fuel capacity increased 396% in the last 8.5 years, accounting for 44% of the country’s total capacity.

WriteCanvas discussed the importance of solar, wind, and hybrid power in India’s renewable energy sector in a previous blog post. We now focus on the developments and prospects in nuclear, waste-to-energy, biogas, and other alternative energy sources.

Nuclear power:

India’s installed power capacity currently stands at 405GW and is projected to reach 810 GW by 2030. Twenty-two operational nuclear power reactors with a cumulative capacity of 7.48 GW account for about 1.7 percent of India’s energy mix.

Largest plant: The Kudankulam Nuclear Power Plant (KKNPP) is India’s largest nuclear power station, located in Tamil Nadu’s Tirunelveli district. Construction began in 2002 but faced delays due to local fishermen’s opposition. The plant is set to have six VVER-1000 reactors, with an installed capacity of 6,000 MW. Unit 1 was synchronized with the southern power grid in 2013 and has been generating electricity at its 1,000 MW limit. The original cost of the units was revised to Rs 17,270 crore, with Russia providing a credit of
Rs 6,416 crore.

Forecast:  India’s nuclear sources are expected to contribute nearly 9% of electricity by 2047, helping it achieve its net zero target by 2070.

Tidal energy

Estimates from the Indian government place the nation’s tidal energy potential at 8,000 MW. This includes around 7,000 MW in the Gulf of Cambay in Gujarat, 1,200 MW in the Gulf of Kutch in Gujarat, and 100 MW in the Gangetic delta of the Sunderbans in West Bengal.

Largest plant: In 1991, a 150 kW Pilot wave energy plant was established in Thiruvananthapuram, Kerala, marking the world’s first wave power plant using oscillating water column (OWC) technology.

Forecast: According to the estimates of the Indian government, the country has a potential of 8,000 MW of tidal energy.

Waste to energy:

India has the potential to generate 5,690 MW of power from industrial waste and MSW. However, as of May 2023, and the total number of WTE projects was 14 and the installed capacity stood at 556 MW, indicating the untapped potential of waste to energy.

Largest plants: Located in New Delhi, the Narela Waste to Energy Plant is a 24 MW biopower project. The project, developed in a single phase, is currently active. 

Sangrur, Punjab is the largest biofuel production unit in India, producing 33 tonnes of compressed biogas per day. The unit will consume 1.30 lakh tonnes of straw annually, aiming to address the issue of stubble burning. 

Forecast: India can harness its vast waste generation to generate 65 GW of electricity annually. Experts predict this to increase to 165 GW by 2030 and 436 GW by 2050.

Heat to energy (Thermal energy):

According to Invest India, the country’s thermal installed capacity reached 240.43 GW as of Jan 2024, with 208.18 GW from coal and the rest from lignite, diesel, and gas.

Largest plant: The Vindhyachal Thermal Power Station in Singrauli district, Madhya Pradesh is one of the coal-fired power stations
of NTPC. It is the largest power station in India, and the 9th largest coal-fired power station in the world, with an installed capacity of
4,760 MW.

Forecast: India aims to achieve 500 GW of non-fossil-based electricity capacity by 2030, with cleaner fuels accounting for 50% of the installed capacity mix.

Hydropower

In 2022-23, hydropower accounted for 12.5 percent of power generation in India. India had about 4745.6 MW pumped storage capacity in operation in 2023 with about 57,345 MW of pumped storage capacity under various stages of investigation and construction.

Largest Hydropower

The 2,400MW Tehri Hydropower Complex in Uttarakhand, India’s largest hydroelectric power plant, is the tallest in the country at 260.5 meters. The complex consists of the Tehri Dam, Tehri Pumped Storage Hydroelectric Power Plant, and Koteshwar Dam. The reservoir stores water for hydroelectricity generation, irrigation, and municipal water supply to various North Indian states. The project was recently approved by the Indian government, with NTPC taking over in November 2019. The Koyna Hydroelectric Project, India’s largest completed hydroelectric power plant, is located near Patan and has four dams, including the largest across the Koyna River.

Caveat: Caveat: Large hydroelectric projects have had devastating environmental impacts. The sinking of Joshimath town in the Chamoli district of Uttarakhand forced the government to review the Tapovan Vishnugad Hydropower Plant undertaken by NTPC. Environmentalists alleged that the construction of a changes the natural course of the river and dramatically also affects the flora and fauna, impacting biodiversity.

Forecast: India’s 103 GW potential is estimated to require 14.5 GW of PSP capacity by 2031-32, with 4.7 GW currently unoperated, 2.8 GW under construction, and 24 GW under study.

Small hydro power:

India has a 1.2% market share in the small hydropower sector, with an installed capacity of 4,944 MW.

Forecast: The global Small Hydropower market, valued at $2185.63 million in 2020, is projected to reach $2826.05 million by 2027, growing at a CAGR of 3.93% between 2021 and 2027.

Hydrogen:

India launched the National Green Hydrogen Mission in 2021 to create a Green Hydrogen ecosystem in the country.

Largest plant: The Pudimadaka Green Hydrogen Hub aims to establish a global ecosystem for new energy technologies, including electrolyzer and fuel cell manufacturing, startup, incubation, testing, and production of green hydrogen and its derivatives. The project involves the construction of India’s largest green hydrogen production facility (1200 TPA), which will be converted into green ammonia and green methanol derivatives.

Forecast: As per Green Hydrogen Mission, India’s Green Hydrogen production capacity is expected to reach 5 MMT annually, generating 125 GW of renewable energy capacity, generating Rs. 8 lakh crore in investments, and creating over 6 lakh jobs by 2030.

Our take

India aims to achieve 500 GW of renewable energy capacity by 2030, with 424 GW of power generation capacity, 180 GW from non-fossil fuels, and 88 GW in the works.

Notably, the government has been regularly launching policies to support the segment. But some moot questions remain:

  1. How affordable is the RE alternative at the present price point?
  2. Does India have a robust infrastructure in place to support our ambitious targets?
  3. How environmentally friendly really is renewable energy?
  4. Is there a proper monitoring agency in place to scrutinize the progress of the projects?
  5. What is happening with the feedback files? Is anyone acting on it or are they gathering the proverbial dust?
  6. How are we benchmarking the success/failure of a project?

Being an active stakeholder in the sustainability segment, WriteCanvas is by no means a naysayer. We admit that India has come a long way in the RE segment, and is ahead of the curve vis-a-vis many of our peers. 

What makes the RE environment interesting in the country is active public-private partnerships–these allude to stakeholder accountability. Several RE conferences in the country and India pavilions in similar events abroad certainly show that we are moving in the right direction. 

Reader, what do you think can be done to not just fast-track the adoption of RE in the country, but also ensure transparency at all levels?


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