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India Inc Pledges Rs 32.45 Lakh Crore for RE Projects

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India Inc. has pledged Rs 32.45 lakh crore for renewable energy projects till 2030.

Confirming the development, Prahlad Joshi, Union Minister for New & Renewable Energy said the commitment is in line with India’s target of over 500 GW capacity by the same year.

“We received overwhelming commitments from states and Union Territories as well as from the developers, manufacturers, and financial institutes to support our goal of 500 GW by 2030″, the minister said.

He informed that the OEM partners and manufacturers have committed additional manufacturing capacity of 340 GW for solar modules, 240 GW for solar cells, 22 GW for wind turbines, and 10 GW for electrolyzers.

He also spoke about interest in India’s renewable energy sector from foreign countries like Germany and Denmark, highlighting the opening of an Indo-German platform for global financing of renewable energy projects.

Corporate commitments:

Reliance Industries has pledged to add 100 GW of additional renewable capacity installation till 2030, including 20 GW per year of integrated solar PV and 20 GW equivalent of glass.

Adani Group has pledged around Rs 4.05 lakh crore investment in the green energy segment. Moreover, Adani Green Energy has committed to 38.8 GW RE capacity by 2030. Adani New Industries will set up a solar manufacturing plant of 10 GW, wind manufacturing of 5 GW, a green hydrogen production facility of 10 GW (green hydrogen: 0.5 MMTPA, green ammonia 2.8 MMTPA), and an electrolyzer manufacturing plant of 5 GW.

Torrent Power has committed investment worth Rs 64,000 crore for integration of renewable energy with the potential of giving employment to 26,000 people. The company aims to achieve 10 GW of installed RE capacity by 2030, with an investment of Rs 57,000 crore. The company signed a Memorandum of Understanding (MoU) with the Government of Gujarat for the execution of a 5 GW solar, wind, or solar-wind hybrid project at Dwarka District in the state.

It is also setting up 1,00,000 Kilo Tonnes Per Annum (KTPA) Green Ammonia production facility with an investment of Rs 7,200 crore.

It must be noted that companies like NTPC, SJVN, NHPC along with SECI, have released bids for 14 GW of renewable energy, exceeding the target of 10 GW, between June and August of 2024.

Rencent MNRE Achievements  
  • 6.0 GW RE capacity was commissioned between June, July, and August 2024 against the target of 4.5 GW.
  • Non-Fossil Installed Capacity reached 207.76 GW.
  • From June 2024 to August 2024, REIAs have issued RE power procurement bids for 14 GW against a Target of 10 GW.
  • Two Solar Parks completed.
  • 1 Lakh Solar Pumps installed under PM KUSUM.
  • Under PM Surya Ghar Scheme, 3.56 lakh Rooftop Solar systems were installed.
  • Cumulative 13.8 GW Solar Module production commenced in the Solar PLI Scheme.
  • Under the National Green Hydrogen Mission 11 companies were selected under the second tranche for electrolyzer manufacturing for a total capacity of 1500 MW/ annum.
  • Offshore Wind Scheme approved by the Cabinet on 19.06.2024, RFS issued by SECI.
  • IREDA has incorporated a subsidiary “IREDA Global Green Energy Finance IFSC Ltd” in GIFT City.

 

 


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Geothermal Power Plant on the Horizon

Renjini Liza Varghese


The country has been taking focused steps towards achieving energy independence for the last 20-30 years. And this has widened the inclusion of various fuel sources for energy production.

The latest is the addition of geothermal energy to the energy basket. The Ministry of New and Renewable Energy (MNRE) has formed an 11-member committee under the aegis of Dr. AK Tripathi. Experts from ONGC Energy Centre, Centre for Earth Sciences and Himalayan Studies, IIT Roorkee, the Geological Survey of India, CSIR, National Geophysical Research Institute are also included in the committee.

Increasing energy demand and the pressure to decarbonize energy generation is one of the key factors that is forcing India to include geothermal energy in its energy basket. This is a big leap in the area of geothermal-based power generation as India has been conducting feasibility studies for decades before mainstreaming it into the power sector. As per the available data, India started its geothermal energy potential assessment in 1972.

Geothermal power generation:

Geothermal energy is the heat energy extracted from the Earth’s crust and is 100 percent renewable. It comes from heat that’s continuously produced deep within the Earth, replenished by the decay of radioactive elements. Wells are drilled into the earth to extract geothermal energy. Geothermal power plants use the heat to produce steam, which turns a turbine that drives generators to create electricity.

Globally, geothermal energy sources are categorized into two; one with high enthalpy geothermal reservoirs and the other with low enthalpy geothermal reservoirs. This division of geothermal reservoirs is based on geological characteristics and temperature of the area. Low enthalpy geothermal reservoirs are potentials with temperatures less than 150 °C, which are found at approximately 1000 m depth. High-temperature geothermal reservoirs have potentials with temperatures more than 200 °C and are found at approximately 1000 m depth. Kenya, Iceland, Italy, New Zealand, Mexico, and the Philippines are some of the other countries working in the field of geothermal energy.

Advantage geothermal:
  • Geothermal energy has several advantages over other sources of renewable energy. These include:
  • Less environmental damage in comparison to fossil fuel extraction
  • Low cost
  • Round-the-clock operation
  • Firm in nature
  • Baseload power

California in the US has the largest geothermal power plant and 85 percent of houses in Iceland are powered by geothermal electricity. As per estimates, India has the potential to generate over 10 GW of geothermal power.

As per the exploration studies, the Geological Survey of India has identified 340 hot springs across the country. The country has low enthalpy geothermal potentials with temperatures ranging from 30 °C to 120 °C. Basis these categories, the potentials have been classified into:

  • Northwestern Himalaya
  • So-Na-Ta Lineament
  • West Coast Margin
  • Thermal field of the eastern and northeast region and other geothermal regions
  • The Puga geothermal field has the highest enthalpy geothermal water.

The first project is expected to launch in Ladakh. ONGC, the project’s lead agency, anticipates starting the exploration process shortly. If everything goes according to plan, India will have its first geothermal energy by next year.


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Green Hydrogen Funding Gets MNRE Boost

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The MNRE or Ministry of New & Renewable Energy has unveiled a scheme for funding testing facilities, infrastructure, and institutional support for the development of standards and regulatory framework under the National Green Hydrogen Mission (NGHM).

The scheme:

With a budgetary outlay of Rs. 200 Crore till FY 2025-26, the scheme aims to identify gaps in existing testing facilities for components, technologies, and processes used in the value chain of Green Hydrogen and its derivatives.

Salient features:

• create new testing facilities to test, validate, and certify technologies and processes in the value chain
• upgrade existing facilities with different testing agencies
• ensure safe and secure operations of equipment/instruments used in the Green Hydrogen Value Chain
• encourage participation from private and government entities in establishing world-class testing facilities in India
• support projects to develop testing & certification infrastructure for the components of the Green Hydrogen value chain
• enable funding capital expenditure for the establishment of new testing infrastructure
• evaluate and grant financial support for the establishment of testing infrastructure on a case-by-case basis
• support the creation of Center(s) of Excellence

The Agency for the Implementation of the Scheme will be the National Institute of Solar Energy (NISE) (SIA). The plan includes building strong performance and quality testing facilities to guarantee sustainability, safety, and quality in the manufacturing and trading of green hydrogen, MNRE said.


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Is India ready to meet 400 GW peak power demand?

Renjini Liza Varghese


The statement of Power Secretary Pankaj Agarwal- India’s peak power demand may surpass the projected 384 GW mark and cross a new level of 400 gigawatts (GW) by 2031-32, didn’t come as a surprise. Each year, India has been recording a spike in power demand.

For example, the peak power demand already reached the 250 GW mark as of 30 May this year.

According to industry experts, the growing economy and rising temperatures will further push the peak power demand in the coming years.

“The way power demand has grown in some states in the last two years, the demand will touch 384 GW and may easily cross 400 GW by 2031-32,” Mr Agarwal said at the CII-Smart Metering Conference.

Can India meet the rising power demand?

One largely unanswered question and the proverbial loose end remains. Is India equipped to meet the growing power demand? This is a serious concern being raised across various forums, and requires careful analysis.

Undoubtedly, the power generation capacity has to double from the current level to meet the peak demand of over 400 GW. Currently, India has a total installed capacity of 444.7 GW. Thermal dominates the pack with 242.9 GW, 193.6 GW of renewables (wind, solar, hydro, biofuel), and 8.1 GW of nuclear capacity.

India has set a target of 500 GW of renewable energy capacity by 2030. In 2023, the government rolled out bids for 50 GW every year to speed up the momentum.

As per a press release from the government (Power and New & Renewable Energy) Minister in December 2023, 132 GW of electricity capacity is under construction, and 517 GW capacity is anticipated to be added by 2031-2032.

Furthermore, the government has stated unequivocally that dependence on coal-based generation is likely to continue until cost-effective energy storage solutions are available. “The country cannot achieve energy security by renewable energy sources alone,” the union ministry said in a press release.

Pegging the power demand:

The demand rise can be pegged to the following reasons:
a) Adding new consumers (December 2023 showed 2.86 crore new consumers)
b) Temperature rise
c) Rapid economic growth
d) e-mobility
e) Industrial growth

The peak demand in FY 2013-14 was 135 GW, which increased to 243 GW in FY 2023-24 (till Nov. 2023). As per the 20th Electric Power Survey (EPS), it is projected to touch 277 GW in FY 2026-27 and 366 GW in FY 2031-32, respectively.

Data:
As per the National Electricity Plan, the installed capacity requirement for the year 2031-32 is likely to be 900.4 GW, comprising 285 GW of fossil capacity (coal & lignite, gas) and 615 GW of non-fossil capacity (nuclear, large hydro, solar, wind, small hydro, biomass, pumped storage projects) along with battery energy storage system or BESS capacity.

The generation planning studies carried out by the Central Electricity Authority (CEA) show that the required coal-based installed capacity will be at 283 GW by FY2032 as against the present installed capacity of 214 GW.

Interestingly, after studying various aspects of renovation & modernization and life extension of coal-based power plants in August 2023, CEA has identified 148 units with a total capacity of 38.2 GW as potential candidates for R&M/LE works.

The authority, in letters dated 20.01.2023 and 07.07.2023, advised thermal power utilities not to retire or repurpose coal-based power stations before 2030 and to ensure thermal unit availability after R&M activities.

Our take:
While measures are being laid to address the rising power and peak power demand, questions are being raised on:

a) the funding requirements
b) the power infrastructure upgradation
c) ensuring uninterrupted power

At this point, I want to reserve my comments as I see more challenges than favourable factors in addressing the peak power demand.


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Is wind power regaining sheen?

Renjini Liza Varghese


The wind power sector which dominated the renewable energy basket of India, has lost its leading position to solar power in the past few years.

Even though the wind is infirm, it can still generate energy at night.

However, the capacity addition, which picked up momentum in FY2012 with an addition of 3196.66 MW, slid drastically in the following years. It was only in FY2017 that the country saw the capacity addition crossing the 5 GW mark (5364.78 MW).

The stakeholders have bet over the past ten years on adding 5 GW annually to facilitate the energy transition. However, the sector has been plagued by several problems, including funding issues.

That is not all, the segment has seen a major transition- from WT manufacturers to IPPs, which also affected capacity addition in the last decade. Though the wind power market has evolved both in terms of technology and pricing, it continues to struggle.

However, a new report by the rating agency Crisil shows some green shoots.

As per their observation, the nation’s wind capacity addition is anticipated to increase from 9 GW between fiscal years 2021 and 2024 to nearly 25 GW between fiscal years 2025 and 2028, a 2.5-fold increase. That is more than twice as much as the most recent capacity addition. This also calls for an investment (capex) to the tune of Rs 1.8–2 lakh crore.

Variable data:

According to Crisil’s analysis, India increased its wind capacity by 3.0 GW annually between the fiscal years 2014 and 2018. The Ministry of New and Renewable Energy’s data, however, paints a different picture and indicates that, during this time, capacity addition ranged from 1865 MW to 5502 MW.  This is supported by other reference data points such as that of the National Institute of Wind Energy  and the IWTMA.

The pace did slow down to an average of 1.7 GW between fiscals 2018 and 2023 owing to a lack of connected sites with high wind potential and diminished returns for developers from aggressive bidding.

So what will enhance the wind capacity addition?

a) A ramp-up in auctions of wind and hybrid projects (including storage-linked projects)

b) By constructing transmission infrastructure to wind sites

c) Improved financial profiles of wind original equipment manufacturers (OEMs)

d) Viable tariff bids

The policies/ initiatives rolled may strengthen the prospects of the wind sector.

For instance, the government has set a target to auction 50 GW of renewable projects every year, including 10 GW of standalone wind projects for specifically reinvigorating wind capacity additions. This has already led to the auction of around 5 GW standalone wind projects since the start of fiscal 2023, vis-à-vis around 3 GW auctioned in fiscal 2021 and 2022.

Auctions of hybrid and storage-linked projects are also on the rise—up from 4 GW in fiscals 2021 and 2022 to nearly 18 GW in fiscals 2024 and 2023.

The way forward:

Crisil observes that as transmission connectivity and wind OEMs’ financial standing have improved, supply-side constraints have begun to ease.

Additionally, the government is developing transmission infrastructure to improve connectivity to sites with high wind potential and plans to increase connected capacity for wind sites from ~50 GW as of December 20224 to ~75 GW by March 2025 and ~100 GW by December 2027.

That said, these estimates remain sensitive to progress on the construction of transmission infrastructure and prices of steel and cement, which could impact the cost of projects and, thereby, the viability of current tariffs.


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Green Hydrogen Production, QS Discussed at MNRE Workshop

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The Union MNRE conducted a workshop to establish clear quality standards and a uniform ecosystem for green hydrogen production processes.

More than 300 attendees discussed measures to develop a network of testing infrastructure, quality standards, and ease of doing business.

Experts from prestigious technical institutes, authorities, and businesses held five-panel discussions. Topics discussed included production standards, electrolyzer manufacturing, hydrogen storage standards, and applications based on green hydrogen.

During the workshop, two reports were also released: one on “India’s Green Hydrogen Revolution” and the other on “Green Hydrogen Standards and Approval Systems in India.”

National Green Hydrogen Mission Portal Launched:

The Union Ministry of New and Renewable Energy also launched a National Green Hydrogen Mission Portal.

The portal would act as a one-stop shop for information on the Mission and the actions made to advance the growth of the green hydrogen ecosystem in India.

Principal Scientific Advisor to the Government of India, Prof. Ajay Kumar Sood, and Secretary of the Ministry of New and Renewable Energy, Bhupinder S. Bhalla, jointly launched the portal.


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Guidelines for use of Green Hydrogen in Steel Sector

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The GoI has introduced new guidelines promoting the gradual use of green hydrogen in place of fossil fuels in the steel sector

The MNRE issued guidelines for pilot projects utilizing Green Hydrogen in the steel sector under the National Green Hydrogen Mission

The guidelines suggest the use of hydrogen in blast furnaces to directly decrease iron production. They also suggest blending a small percentage of green hydrogen in existing plants, requiring future plants to operate with green hydrogen, and considering 100% green steel projects.

The guidelines:

The Scheme will be implemented with a total budgetary outlay of Rs. 455 crores till FY2029-30.

MNRE plans to implement pilot projects in the sector under the National Green Hydrogen Mission, replacing fossil fuels and feedstock with Green Hydrogen and its derivatives. The Ministry of Steel and the nominated implementing agencies will execute these pilot projects.

The guidelines suggest that plants could initially incorporate a small percentage of green hydrogen into their processes, gradually increasing the proportion over time. The guidelines aim to improve cost economics and technology in steel plants, enabling them to operate with green hydrogen and consider 100% green steel projects.

Three thrust areas have been identified for pilot projects in the steel sector. Hydrogen is being utilized in various processes such as Direct Reduced Ironmaking, Blast Furnace, and gradually replacing fossil fuels with Green Hydrogen. The scheme will facilitate pilot projects utilizing innovative hydrogen usage to decrease carbon emissions in iron and steel production.

The use of green hydrogen and its derivatives in the steel sector, through the proposed pilot projects, will lead to the development of the necessary infrastructure for the use of Green Hydrogen in the Iron & Steel industry. With the anticipated decrease in production costs, the use of green hydrogen in the steel sector is anticipated to grow over time.

It must be noted that the National Green Hydrogen Mission was launched on 04th January 2023 with an outlay of Rs. 19,744 crores up to FY 2029-30. It will contribute to India’s goal to become Aatmanirbhar (self-reliant) through clean energy and serve as an inspiration for the global Clean Energy Transition. The Mission will lead to significant decarbonization of the economy, reduced dependence on fossil fuel imports, and enable India to assume technology and market leadership in Green Hydrogen.


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Golden era for wind energy in India?

Renjini Liza Varghese


An interesting news item on renewable energy caught my attention today morning. Wind energy contributed 64.54 billion units in the last three quarters from April-January FY2022-23 to India’s energy basket. It is not surprising that Gujarat and Tamil Nadu lead the pack with 17,062 million units and 15,703 million units respectively. The data was released by the Ministry of New and Renewable Energy.

Considering what the wind sector has gone through in the past couple of years, the growth in the wind energy segment is commendable. Overall, only 41% of projects awarded by SECI during 2018-21 were commissioned till December 2022. 23% were cancelled and the balance were delayed due to land acquisition, and evacuation and supply-side constraints.

I remember my stint with a leading wind energy association where we constantly spoke about the need for capacity addition of 3-6 GW per year and moving beyond 10 GW/year before 2020. Those days our efforts did not bear fruits. It doesn’t end here. Credit Rating agency Crisil, in a press release titled: “Wind energy sector set to surge 4-5x on policy tailwinds” reiterated that India added wind energy of 1.6 GW per annum average. Comparatively, the solar energy sector averaged 8.3 GW per annum in the last five fiscals from 2017 to 2022.

But now the climate rather the wind has changed the segment. This time, for the good. The recent development is an upbeat development in the wind energy market segment.

As per CRISIL, moves by the Ministry of New and Renewable Energy (MNRE) can crank up India’s annual wind capacity implementation to 6-8 gigawatt (GW) per annum starting fiscal 2026, significantly more than the 1.6 GW annual rate clocked in the past five years.

New Policy 

New policy measures by the MNRE are adding the thrust. One, MNRE has set a goal to award 8 GW of wind tenders per annum. This is significant because wind tendering has been low at just 3.3 GW per annum in the past five fiscals. Secondly, the ministry has replaced the reverse auction process with a single-stage, two-envelope closed bidding. This should curb irrational bidding. We expect tariffs to rise 20-30% over the recent Rs 2.89-2.94 per unit 4 (to provide more than 10% internal rate of return), on account of changes in the bidding process, resource variability at newer sites, etc, CRISIL said in a press release.

It noted that MNRE has mandated that all discovered renewable tariffs for each state will be pooled and offered to discoms at an average pooled tariff by an intermediary such as SECI. That would lower the risk for wind power project developers because SECI fares significantly better than state discoms in terms of payment of dues.

Strict disciplinary actions such as revoking bank guarantees if the project is not delayed by a year or debarment for 5 years if the project is delayed by 18 months will ensure timely completion, CRISIL stated.

“Basis our discussions with developers, considering 8 GW of bidding in fiscal 2024 and 20-24 months to the commission, around 6-8 GW capacity can be installed every year starting FY2026. This factors in policy push by the government. The annual installations could be on the lower side than the tender volume if the historical reasons for the delay that may be beyond the control of developers, persist,” said  Ankit Hakhu, Director, CRISIL Ratings.

Recalling here PM’s recent statement— India’s green energy potential is no less than a  goldmine. Renewable energy contributes more than 40% to the country’s energy basket. And the set target is to achieve 500 GW of renewable energy by 2030.

ACHIEVABLE – no doubt as the ministry is taking proactive steps and the industry is gearing to tap the potential of repowering and offshore wind energy.

 


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