Tag: Green hydrogen

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Advancing India’s Green Shipping, RE Narrative on a Global Stage

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India’s pursuit of a sustainable energy future has positioned it as a global voice of reason.

Union Minister of New and Renewable Energy, Mr Pralhad Joshi, reiterated the same during his keynote address. He highlighted India’s advancements in green shipping and renewable energy transition at the Hamburg Sustainability Conference in Germany.

According to the union minister, India’s capacity for renewable energy has increased dramatically since 2014, rising from 75 GW to over 208 GW, a 175% increase.

Over this time, the total RE increased by 86%, from 193.5 billion units to 360 billion units. In the past ten years, the capacity of solar energy has also increased 33 times. Mr Joshi underscored how India is at the forefront of international efforts to use solar energy to fight climate change, as evidenced by the International Solar Alliance, which has the backing of more than 100 nations.

“India is the only G20 country to have met its climate targets ahead of schedule, despite having the lowest per capita emissions among G20 nations,” he remarked. He emphasized that energy security and access remain paramount for India, but this has never hindered the nation’s commitment to energy transition on both national and global scales.

Green shipping:

On green shipbuilding, India wants to rank among the top ten shipbuilding countries by 2030 and the top five by 2047. It is making great progress in the green shipping sector, Mr Joshi asserted.

He stressed the importance of the maritime industry to international trade as well as how it affects greenhouse gas emissions.

“As we move closer to reaching net-zero emissions, the need for sustainable maritime transportation has grown significantly,” he said.

India is leading the way in the green shipping sector thanks to international cooperation, government initiatives, and technological advancements.

The Minister also detailed about the modernization of Indian shipyards and the reopening of older dockyards to increase the capacity for building green ships. He cited the government’s strong emphasis on alternative fuels and renewable energy sources like biofuels and wind power.

He said, “India is becoming a promising hub for green shipbuilding.” The country is working to become one of the top five shipbuilding nations by 2047 by modernizing its port infrastructure to accommodate hybrid models and green shipping fuels.

Focus on green hydrogen:

Mr Joshi extended an invitation to foreign parties to participate in India’s large-scale renewable energy and green hydrogen initiatives.

He informed the audience that with an initial investment of $2.4 billion, the National Green Hydrogen Mission (NGHM) seeks to generate 5 million metric tonnes (MMT) of green hydrogen yearly by 2030, drawing in over $100 billion in investments and adding over 6 lakh jobs.

Pilot projects under the NGHM, with an investment of $14 million, are already exploring the use of green hydrogen in the shipping sector. “We are focusing on converting existing vessels to operate on green hydrogen or its derivatives. The Shipping Corporation of India is currently converting two vessels to run on green methanol,” the Minister explained.

India is laying the groundwork for the development of hydrogen hubs, which will revolutionize its energy landscape, with an investment of about $25 million. Furthermore, in order to support green hydrogen-powered ships, ports like Deendayal, Paradip, and V.O. Chidambaranar are being developed into important hydrogen hubs with bunkering and refueling facilities.

“India’s embrace of innovative technologies, investment in robust infrastructure, and cultivation of international cooperation have elevated us from a mere participant to a leading force in this global transition,” Mr Joshi concluded.

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Bahrain Takes a Leap Towards a Sustainable Future

Renjini Liza Varghese

The recent POWERELEC conference in Bahrain highlighted the country’s unwavering commitment to achieving net-zero emissions.

As the event’s conference partner, WriteCanvas is particularly happy to be part of the Kingdom’s transformation journey.

The three-day event’s theme was “Bahrain’s Net Zero Ambition: Unfolding Renewables, Green Hydrogen for a Sustainable, Decarbonized Economy.”

It brought together industry leaders, policymakers, and experts to discuss innovative solutions and strategies for a sustainable, decarbonized future. With a focus on renewable energy (solar power), green hydrogen, and cybersecurity, the conference highlighted the critical role of collaboration and technological advancements in fulfilling Bahrain’s Vision 2030.

The conference, inaugurated by H.E. Mohamed Abduljabbar Alkooheji, the second vice chairman of the Bahrain Chamber of Commerce and Industry (BCCI), underscored the critical role of the private sector in the country’s renewable energy transition. Renowned speakers from the industry discussed various initiatives to accelerate this shift, emphasizing the importance of incentives, partnerships, and innovation.

Key highlights of the conference included:

Government Support: Eng. Ebtisam Isa Al-Shenoo, Chief, Industrial Operations Section, Ministry of Industry and Commerce, highlighted the importance of incentives to encourage industries to adopt renewable energy.

Industry Recommendations: Mr. Basim Al-Saie, Board Member, Bahrain Chamber and Chairman, GITHAA- Bahrain Food Holding Company -BFHC presented eight industry recommendations, including EV adoption and a thrust on renewable energy infrastructure.

Renewable Energy Transition: In a session titled “Renewable Energy Transition: The Toolkit for Success for Bahrainis,” H.E Jassim Al Shirawi, Secretary General Elect,  International Energy Forum (IEF) and Chairman & Managing Director, JAIS Energy Services underscored the need for energy transformation in the current era. Mr. Imed Derouiche, CEO of H2G Green Hydrogen, Tunisia elaborated on the role of hydrogen in this transition.

Cross-Border Energy Trade: In the first panel, “Transforming the Renewable Energy Landscape: Innovation, Partnerships, and Opportunities for Grid-Scale Energy,” the keynote speaker Dr. Husain Almakrami, Assistant Professor, Renewable Energy Yanbu Industrial College, Royal Commission for Jubail and Yanbu, Saudi Arabia, discussed new opportunities for cross-border energy trade and innovation in the renewable energy sector.

Energy Storage: The second panel, “Embracing Mega Trends in Intelligent Energy Storage Solutions in the Middle East,” moderated by Hinde Liepmannsohn, Executive Director, Middle East Solar Industry Association (MESIA), delved into challenges and innovations in the energy storage segment.

Financing and Execution: The conference also addressed the critical topic of “Financing and Executing the Big Ticket Projects – Challenges and Opportunities. ” The keynote speaker, Dr. Abdulla Alabbasi Director – DERASAT Energy and Environment Programme DERASAT- Bahrain Center for Strategic, International and Energy Studies, and the copanelists explored various financing options and their effective utilization.

Green Cities: On the third day, Dr. Hanan Albuflasa Professor of Renewable Energy University of Bahrain, emphasized the importance of supportive regulations for renewable energy adoption in the session “Building Green Cities: Solar Powering the Future.” The panel concluded that building green cities is a shared responsibility.

Cybersecurity: The conference concluded with a presentation on “Cybersecurity Risk Management for Renewable Energy Projects,” by Ali Beshara Cybersecurity Expert & Executive Trainer Cyber CREST, highlighting the importance of cybersecurity in the face of technological advancements.

Overall, POWERELEC Bahrain provided a valuable platform for stakeholders to discuss and collaborate on Bahrain’s net-zero ambitions, paving the way for a sustainable and decarbonized future.

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Maharashtra Gets Rs 1.29 lakh crore Boost for RE

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Maharashtra has secured a substantial boost for its renewable energy sector. The state government has signed seven Memorandum of Understandings (MoUs) with various companies, involving an investment of Rs 1.29 lakh crore and creating over 37,000 jobs, including three under the pumped storage power scheme and four in the clean and green energy sector.

In the first instance, the state has signed four different MoUs with SJVN, MahaGenco Renewable Energy Ltd, RECPDCL, THDC and HPRGE-HPCL, collectively valued at Rs 47,500 crore for renewable energy generation.

The projects will be in line with the state government’s aim to achieve 50 percent renewable energy by 2030. The development of these projects will create 18,828 jobs, said Devendra Fadnavis, Deputy Chief Minister, and Energy and Irrigation Minister.

The projects:

In the first instance, RECPDCL – REC will collaborate with the state government to develop commercially viable renewable energy projects, including a 500 MW hybrid project with an initial investment of Rs 3,000 crore, generating 1,663 jobs.

The second project with THDCIL-THDC involves developing renewable energy projects in the state, with an investment of Rs 29,329 crore, generating 14,130 direct and 4,250 indirect jobs.

The MoU with HPRGE-HPCL Renewable and Green Energy Limited Company is to develop a 50 KTPA green hydrogen and its derivative plant at MahaGenco’s gas-based power project in Uran in Raigad district.

This will be developed through a joint venture company with an investment of Rs 12,000 crore. The project will create 1,635 direct and indirect jobs.

SJVN is partnering with MahaGenco to develop a floating solar plant on Lower Wardha Dam, with a 51:49 equity participation. The project, estimated to cost Rs 3,030 crore, will generate 1,400 jobs and utilize power transmission infrastructure.

DCM shares:

“MoUs were signed for power generation of 15,100 MW under a pumped storage scheme, with an investment of around ₹82,299 crore. This initiative will create employment for 18,440 people. Maharashtra has made significant progress through this scheme, and today’s MoU marks an important step toward a greener and cleaner energy future for the state,” Mr Fadnavis said.

“After these MoUs, Maharashtra will significantly enhance its generation capacity under pumped storage and it will reach 55,970 MW, with a total investment of around ₹3 lakh crore, creating approximately 90,000 employment opportunities. This will also position Maharashtra as a future leader in the PSP policy.”

“The signing of 4 MoUs with a staggering investment of around ₹47,000 crore, will generate approximately 19,000 employment opportunities. Sectors such as ARI, green hydrogen, and green ammonia will enhance green energy initiatives and help Maharashtra progress towards its goal of using 50 percent clean energy by 2030. Green energy generation is essential today, as it represents a step forward toward Hon PM Narendra Modi Ji’s dream of achieving net zero. Maharashtra has a strong track record with its MoUs, consistently maintaining a national average of 60 percent success rate. This marks an important move to transform MoUs into actionable outcomes. Our Govt will extend all required support.”

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Can India Scale to Meet to its RE Targets?

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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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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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Thermax, Ceres Partner for Green Hydrogen Production

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Thermax has partnered with Ceres to develop a pressurized SAM and design a SAM balance of module for a multi-MW SOEC electrolyzer module.

The two companies have entered a non-exclusive, global license agreement.

As part of the collaboration, Thermax will manufacture, sell and service stack array modules (SAM) based on Ceres’ advanced solid oxide electrolysis (SOEC) technology.

The partnership marks a significant step towards accelerating the deployment of SOEC technology in India and worldwide that will enable cost-effective green hydrogen production.

Green hydrogen push:

Thermax will leverage its expertise in waste heat recovery and heat integration to create a pressurized SAM. It will also design, engineer, and create a SAM balance of module (SBM), a component that will be used to develop a multi-MW SOEC electrolyser module in the future.

The collaboration aims to revolutionize hydrogen production by delivering systems 25% more efficient than low-temperature electrolysis technologies and effectively utilizing industrial process heat/waste recovery steam. This makes it an ideal solution for decarbonizing industries like ammonia/fertilizer, steel, refineries, and chemical production.

As a step towards commercialization, Thermax has plans to establish a manufacturing facility for the electrolysers, develop the supply chain, and localize critical components, the company said in a press release.

CEO speak:

Ashish Bhandari, Managing Director & CEO, Thermax, said, “In India, significant strides are being made towards embracing renewable energy sources, particularly green hydrogen, as the country targets to produce 5 million metric tonnes of green hydrogen by 2030. By leveraging our expertise in thermal management, we aim to offer a highly efficient and cost-effective hydrogen production solution that will accelerate the energy transition in India and globally.”

Phil Caldwell, CEO, Ceres, said, “… This latest system licence agreement will take Ceres into the Indian market which is rapidly becoming one of the most dynamic and increasingly important markets for green hydrogen, green steel and green ammonia.

This is a strategically important agreement for Ceres as we continue to build our global eco-system of world-class partners. Our technology enables Thermax to develop next-generation hydrogen solutions for its customers in the hard-to-abate industrial sectors, stimulating market demand pull for our manufacturing licensees. Our entry into this new region marks an exciting opportunity for Ceres as we help enable the path to industrial decarbonization in this rapidly developing market.”

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India Charts Green Energy Strategy at US-India Bilateral Meet

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Green energy was at the forefront during at recently concluded bilateral meeting on US-India Civil Nuclear Commerce in New Delhi.

Union Minister of State for Science and Technology, Dr. Jitendra Singh, emphasized the Green Hydrogen Mission as a cornerstone of India’s strategy to decarbonize heavy industries, transportation, and power generation.

He said that attaining the global climate goals and promoting innovation in clean technologies depend on this effort. India has established robust policy frameworks and international partnerships that will position it to spearhead the shift towards a sustainable energy future.

Dr Singh highlighted the importance of global supply chains in sectors like semiconductors, pharmaceuticals, and clean energy technologies. He spoke about the Indian government’s investment in research, development, and regulatory frameworks for Small Modular Reactors.

According to him, India has pledged to implement Prime Minister Narendra Modi’s “Panchamrit” climate action plan. The aim is to increase non-fossil energy capacity, reduce carbon emissions, and achieve net-zero emissions by 2070.

Dr. Ravi Chandran, Secretary, Earth Sciences, highlighted advancements in ocean energy and Carbon Capture, Utilization, and Storage (CCUS) technologies.

Dr. Rajesh Gokhale, Secretary, the Department of Biotechnology, emphasized India’s advancements in biomass-to-energy conversion and the successful implementation of biofuels.

Professor Abhay Karandikar, Secretary of the Department of Science and Technology, underscored India’s advancements in emerging technologies like data analytics, AI, and machine learning.

Dr N Kalaiselvi, Director General of CSIR, underlined advancements in lithium-ion battery development and indigenous battery manufacturing, emphasizing the need for sustainable and circular energy storage solutions.

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India Launches SOP for Green Tug Transition Program

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India has launched SOP for its Green Tug Transition Program.

The Green Tug Transition Program (GTTP) is a pivotal initiative towards realizing the country vision of a sustainable and green maritime sector in India. The government has announced an investment of Rs 1000 crore to build the green tugs.

The first set of tugs will be battery-electric, with provisions for adopting other emerging green technologies such as hybrid, methanol, and green hydrogen as the industry evolves.

Phase 1 of the GTTP will begin on October 1, 2024, and continue until December 31, 2027. During this phase, four major Ports—Jawaharlal Nehru Port Authority, Deendayal Port Authority, Paradip Port Authority, and V.O. Chidambaranar Port Authority—will procure or charter at least two green tugs each, based on standardized designs and specifications issued by the Standing Specification Committee (SSC).

Speaking on the launch, Sarbananda Sonowal, Minister of Ports, Shipping and Waterways and Minister of AYUSH said, “This program not only aligns with our environmental goals but also strengthens our commitment to ‘Make in India,’ promoting domestic innovation and manufacturing in the maritime industry.”

“The program is also expected to create significant employment opportunities in shipbuilding and ship design,” said TK Ramachandran, Secretary, MoPSW.

All tugs operating in Indian major ports are expected to convert to green tugs by the end of 2040, guaranteeing a uniform, environmentally responsible fleet throughout the nation. In addition, any new tug constructed in India after 2033 for use in Indian ports must adhere to the ASTDS-GTTP requirements.

It must be noted that the Maritime India Vision 2030 (MIV 2030), launched by the Prime Minister Shri Narendra Modi in 2020, outlines key strategies to enhance India’s maritime sector, aiming to make it a global leader in safety, sustainability, and environmental responsibility.

This vision includes ambitious targets such as sourcing 60% of each major port’s power demand from renewable energy and achieving a 30% reduction in carbon emissions per ton of cargo by 2030. Building on this, the Maritime Amrit Kaal Vision 2047, introduced in 2023, sets a specific goal for Major Ports to reduce greenhouse gas emissions from port vessels by 30% by 2030.

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AcrelorMittal Belgium Pilots Carbon Capture

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ArcelorMittal Belgium is testing a new technology to convert captured CO2 into carbon monoxide for steel and chemical production.

The company plans to achieve a 35% reduction in CO2 emissions by 2030 through the use of circular carbon in blast furnaces, CCS, or CCU.

It has partnered with Mitsubishi Heavy Industries (MHI) and climate tech company D-CRBN for the project in Gent, Belgium.

D-CRBN has developed a plasma-based technology to convert carbon dioxide into carbon monoxide.

This process can be used as a reductant in steelmaking or as a basic ingredient in AMGent’s Steelanol plant for chemicals or alternative fuel production. The technology requires high-purity CO2, which can be provided by MHI’s carbon capture unit.

On its part, MHI is conducting a large-scale trial to evaluate the effectiveness of their Advanced KM CDR Process carbon capture technology, building on their ongoing pilot.

Manfred Van Vlierberghe, CEO, ArcelorMittal Belgium, said, “We are proud to be part of this unique carbon capture and usage trial in Gent, which is part of our strategy to develop the Smart Carbon steelmaking route in ArcelorMittal Belgium.”

Gill Scheltjens, CEO, D-CRBN, said, “Our technology can electrify and decarbonize existing blast furnaces and significantly reduce their coal use. The conversion of CO2 back into CO for steel production will limit the need for green hydrogen in the future and reduce the costs of emission-free products.”

Tatsuto Nagayasu, Senior Vice President (CCUS), GX (Green Transformation) Solutions, MHI’s, said, “Our collaboration with Arcelormittal and D-CRBN in Belgium provides another tool for the industry to reduce its carbon footprint – capturing emissions, converting them into a valuable feedstock, and feeding them back into the process. This initiative demonstrates our commitment to sustainable practices and innovative solutions for a greener future.”

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GAIL Starts MW-Scale Operations for Green Hydrogen

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GAIL has successfully inaugurated its first green hydrogen production plant in Madhya Pradesh.

The facility will produce 4.3 tons per day of green fuel via 10 megawatt-based electrolyzers. This makes the state-owned gas utility the first company to start megawatt-scale operations for the production of green hydrogen.

The project implemented by Tecnimont in collaboration with Nextchem marks a significant step towards low carbon energy solutions in India.

The GAIL Vijaipur plant aligns with India’s Mission Green Hydrogen.  of achieving at least 5 million tons of annual green hydrogen production capacity by 2030. India aims to become energy independent by 2047 and to achieve net zero by 2070.

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Budget 2024: Expect more focus on climate action

Renjini Liza Varghese

There has been a lot of activity in the fight against climate change between the release of the interim budget and the final budget, which is scheduled for July 23.

Blame the government’s past inaction, climate-related incidents and causalities increased manifold. The rise in these events forced the government to prioritize climate action.

However, when it comes to achieving sustainable development goals, nations are far behind schedule globally. India is also far behind the set targets for SDGs. As per the Sustainable Development Dashboard, out of the 17 SDGs, India has significant challenges remining in Climate Action and Sustainable Cities and Communities.

I believe that the “inclusive,” “Green,” interim budget will see a continuity in the full budget as well.

The current budget is anticipated to have targeted expenditures that will lead to the government’s net-zero target by 2070. Energy transition, in my opinion, will be the main focus of this budget.

Let me list the five areas that will gain more attention in the current budget.

a) Infrastructure with energy efficiency or green norms:
I anticipate that the budget will emphasize stepping up efforts to meet the objectives to strike a balance between sustainability and economic growth. This is possible only with the help of policies, conducive regulations, and supportive outlays. In the interim budget, we saw large outlays in infrastructure. However, this full budget may feature support for cutting-edge technologies that will enable the county to achieve committed sustainable growth.

b) Green hydrogen:
I expect more outlay in this segment as R&D in green hydrogen requires more funding support. Though the country is steadily making progress in green hydrogen production, cost-effective commercialization is still some way off.

c) Emission reduction and carbon capture:
I expect the finance minister to announce initiatives for emission reduction and carbon capture. It could be in the form of incentives for large polluting industries or as support for emerging technologies that will help to meet their reduction targets. The budget may surprise us with a policy framework to accelerate efficient and eco-friendly growth.

d) Renewable energy:
India has already initiated its journey to obtain 500 GW of renewable energy or 50% RE in its energy basket by 2030. But, doing so calls for stronger policy support. Remember, India’s RE potential is much higher than the projected target. Expecting more announcements on renewable energy and clean fuels, energy efficiency, RE evacuation, and sustainable practices. Given that RE is infirm, supporting the expansion of storage facilities might also be a priority. A statement about skill development in the context of green jobs may also be made.

e) Auto/EV:
e-vehicles and charging infrastructure have made significant progress in the past few years. States like Maharashtra, especially Mumbai are seeing more e-vehicle registrations than fossil fuel-powered vehicles. Nonetheless, the industry seeks policy backing to expedite extensive implementation and shifts. Incentives are needed to develop charging stations using renewable energy sources. Expectations are also high for FAME-3, incentives for localizing EV components, priority lending schemes, and lower GST on EV services. The industry also anticipates government support to prepare for technologies like fuel cells, hydrogen, and flex-fuel.

Our take:

Ms. Nirmala Sitharaman outlined a clear roadmap for “Vikasit Bharat by 2047” in the interim budget. Now, I expect her to focus on energy transition, transportation, water, and waste management. As a continuation of the women-centric approach, we may see an increased emphasis on social focus — resilient community-based solutions for sustainable growth, which is a key factor.

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JSW to Invest $1 Billion for Net Neutrality

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The JSW group plans to invest $1 billion to attain net neutrality by 2050.

The company has drawn a two-pronged strategy involving green hydrogen and carbon capture to achieve this goal.

As part of its first phase of the plan, JSW Steel intends to reduce emissions from the current 2.36 tonne of CO2 per tonne of steel produced to 1.95 by 2030. The plan calls for immediate action because the Indian steel industry accounts for about 12% of the nation’s industrial energy consumption and carbon emissions.

The company’s next phase, which is targeted for 2050, is to use green hydrogen and carbon capture, utilization, and storage technologies to achieve net neutrality.

JSW plans to use more efficient raw materials, optimize processes, increase energy efficiency, switch to renewable energy, and investigate alternative fuel options.

While the company has been working on decarbonization for some time, its plan really took off in 2022 when it announced a partnership with SMS Group, a German engineering and technology company, to explore innovative solutions and research and development projects with the objective of lowering carbon emissions from the company’s iron and steelmaking operations in India.

In a press release announcing the partnership, JSW Steel said that it would invest Rs. 10,000 crore to reduce carbon emissions from steel manufacturing and aims to bring down GHG emissions by 42% to <1.95 tonnes of CO2 per tonne of crude steel by 2030.

In yet another initiative, JSW and Smartex inked a memorandum of understanding to advance innovation and turnkey solutions for decarbonization in India’s steel industry.

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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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New L&T CMD S N Subrahmanyan Outlines ESG Plans

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Mr. S N Subrahmanyan, who replaced AM Naik as the CMD of L&T outlined the company’s ESG plans during his inaugural speech at the company’s 79th AGM.

The CMD outlined plans to enhance green energy capacity, encourage the participate of women in the workforce and community development.

He said the company is eyeing opportunities in the green energy sector and is leveraging technologies like AI and IoT to create new opportunities.

“L&T has digitally connected over 15,000 assets across its global projects and manufacturing bases to a central IoT platform. All these initiatives enable the company to make project execution faster, safer, cleaner, economical and more sustainable,” Mr S N Subrahmanyan said.

The renewable energy thrust:

Mr Subrahmanyan outlined various projects the company carried out in FY2023–2024 as part of its For A Better World vision.

These include electrifying over 3,400 track km of mass transit systems, commissioning 2.2 GW of solar capacity, 6.2 GW of nuclear power, 3.5 GW of hydroelectric power, and creating 14.8 million square feet of green buildings.

It must be noted that the company had last year announced its plans to invest $12 billion over the next five years will on green energy.

L&T will also contribute a minimum of $2 billion to its inaugural green hydrogen project as part of the same. With an investment of almost $4 billion, the company hopes to have a capacity of 2-3 million tonnes of green hydrogen and ammonia, Mr Subrahmanyan said.

Women in the workforce and community development:

L&T aims to increase the participation of women employees in the company to 10 percent by FY2025-26. It has launched exclusive career-assisting schemes for females and women-friendly facilities in offices.

The company has benefitted more than 1.6 million people. It has planted 4 million saplings globally and helped build resilience in rural communities through its Integrated community development programme, the CMD said.

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GAIL advances Net Zero Target for Scope-1, 2 GHG Emissions to 2035

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GAIL has advanced its net zero target for scope-I and -2 emissions by five years, from the year 2040 to year 2035.

To accomplish this goal, the Maharatna company will use a strategic approach that includes afforestation, green hydrogen, compressed biogas (CBG), renewable energy, CO2 valorization initiatives, and electrification of NG-based equipment.

By advancing its emission reduction targets, GAIL has demonstrated its leadership in India’s energy sector and is promoting sustainable development. The decision also aligns with India’s net zero commitments.

Mr Sandeep Kumar Gupta, C&MD affirmed that GAIL is actively reducing emissions within its operations to contribute to a cleaner environment.

Mr R K Singhal, Director (BD), emphasized GAIL’s sustained and focused efforts towards and the company’s pivotal role in the energy sector’s transition towards sustainability.

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WB Approves $1.5B Green Bond for India’s Low Carbon Energy Transition

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India has secured $1.5 billion from the World Bank to accelerate its low carbon energy transition.

The operation is funded by a $1.46 billion loan from the International Bank for Reconstruction and Development and a $31.5 million credit from the International Development Association. It is in line with India’s energy security and the Bank’s Hydrogen for Development (H4D) Partnership.

Reforms:

The operation’s reforms are projected to generate at least 450,000 metric tons of green hydrogen and 1,500 MW of electrolyzers annually from FY25/26 onwards. The operation will boost renewable energy capacity, reduce emissions by 50 million tons annually, and develop a national carbon credit market.

They support reforms to increase renewable energy penetration in India, including incentivizing battery energy storage solutions and amending the Indian Electricity Grid Code.

Low-Carbon Energy Programmatic Development Policy Operation 1:

It must be noted that the First $6 billion in sovereign green bonds Low-Carbon Energy Programmatic Development Policy Operation initiated in June 2023, to advance support for policy action to:

• scale up renewable energy supply
• reducing costs
• improve grid integration
• stimulate private financing
• address viability funding gaps
• reduce off-taker risks
• stimulate demand for renewable energy.

This will help India reach its committed 500 GW of renewable energy capacity by 2030. The government plans to issue bids for 50 GW of renewable energy each year from FY23-24 to FY27-28, which will avoid carbon emissions of 40 million tons per annum by 2026, WB had said in a prior statement.

WB notes:

“The World Bank is pleased to continue supporting India’s low-carbon development strategy which will help achieve the country’s net-zero target while creating clean energy jobs in the private sector,” said Auguste Tano Kouame, Country Director, India, World Bank.

“India has taken bold action to develop a domestic market for green hydrogen, underpinned by rapidly expanding renewable energy capacity. The first tenders under the National Green Hydrogen Mission’s incentive scheme have demonstrated significant private sector interest,” said Aurélien Kruse, Xiaodong Wang, and Surbhi Goyal, Team Leaders for the operation. “The operation is helping in scaling up investments in green hydrogen and in renewable energy infrastructure. This will contribute towards India’s journey for achieving its Nationally Determined Contributions targets.”

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Maharashtra Govt. Promotes Sustainable Agriculture, EVs in Budget 2024-25

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The Maharashtra government has announced plans to promote sustainable agriculture, EVs, and women’s participation in various aspects of life.

Deputy Chief Minister Ajit Pawar announced plans to provide farmers with free electricity generation from solar pumps in Maharashtra. The state will construct 8.5 lakh solar pumps, aiming to encourage renewable energy use and reduce electricity costs. The Jal Yukta Shivar Yojana project will also be funded by a Rs 650 crore budget. The government also plans to solarize all irrigation schemes.

The state aims to provide Rs 80 crore in financial assistance to 10,000 women aged 18-35 in 17 cities to purchase e-rickshaws. Besides, the government launched the PM e-Busses program in 19 municipal corporations.

It must be noted that the state government last year announced its plans to raise Rs 5,000 crore in green bonds by 2024 for renewable energy, green buildings, green hydrogen, electric mobility, and charging facilities. It also set up the Maharashtra Green Finance Working Committee (MGFWC) will raise Rs 5,000 crore to fight climate change.

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NTPC to Establish World’s First Flue Gas CO2-to-4G Ethanol Power Plant

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State-owned NTPC for setting up a plant to produce 4G ethanol from flue gas.

Jakson Green which has won the contract, will establish the world’s first flue gas CO2-to-4G ethanol project for a power plant.

The proposed plant at Lara in Chhattisgarh will:

• Produce 10 tonnes per day (TPD) of 4G ethanol from flue gases emitted from the power plants
• Generate 3 TPD of green hydrogen through 7.5 MW electrolyser
• Capture 25 TPD CO2 from flue gases significantly reducing greenhouse gas emissions by using carbon capture technology by Veolia Carbon Clean.

The process:

According to Jakson Green, LanzaTech Inc.’s advanced microbial fermentation technology combines captured carbon dioxide and generated hydrogen, converting these inputs into 4G ethanol.

The partners:

As the licensing, engineering, procurement, and construction (LEPC) partner, Jakson Green will spearhead this project, expected to begin operations in two years.

NETRA (NTPC Energy Technology Research Alliance), the research and development arm of NTPC Ltd. has conceptualized the plant.

Kannan Krishnan, Joint Managing Director, Jakson Green Private Limited, said, “… Increasing the production of ethanol is crucial to achieving India’s blending goals, strengthening energy security, and fostering a cleaner future.”

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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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CCUS will not Play a Major Role in Steel Decarbonization

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Despite support for the technology at the 2023 COP28 climate conference, a new report from the Institute of Energy Economics and Financial Analysis (IEEFA) indicates that carbon capture use and storage (CCUS) is unlikely to play a major role in steel decarbonization.

There are other, more efficient ways for the steel industry to cut emissions.

Key Takeaways:

CCUS has a history of underperformance and failure after being implemented in a variety of sectors for several decades.

The world’s sole commercial-scale CCUS plant for gas-based steel production has extremely low capture rates. Almost nothing is planned for commercial-scale CCUS plants for coal-based steelmaking, and none exist anywhere in the world.

Major steel producers are replacing their coal-consuming blast furnaces with direct reduced iron (DRI)-based steelmaking. CCUS risks falling behind, just as it did in other industries, such as electricity production.

It appears increasingly likely that steel consumers will not want coal in their supply chains going forward due to CCUS’s subpar performance. Plans for decarbonization by steel companies that insist that CCUS will be important should raise red flags for investors.

Challenges:

The steel industry is seeing a rise in the use of green hydrogen to power the production of steel from DRI. According to IEEFA’s research, this technology provides steelmakers with a far more promising route to reduce their emissions than CCUS. This is especially true when combined with electric arc furnaces (EAFs) powered by renewable electricity. Despite this, a large number of global steel producers continue to insist that CCUS will help them reduce their carbon footprint.

Secondly, doubts regarding the long-term viability of geological CO2 storage increase the risks associated with CCUS. These include considerable financial, technological, and environmental hazards. Each CCUS project is distinct, which restricts technological advancement and cost savings. The cost of implementing carbon capture has not decreased much in decades, but the cost of technologies like battery storage and renewable energy has fallen and will continue to fall.

Thirdly, the CCUS capture rates are not comparable.

The low capture rate of CCUS is a critical problem frequently overlooked. CCUS initiatives have had persistent difficulty achieving the desired capture rates. Furthermore, targeted carbon capture typically emits far less carbon than total carbon emissions. Low-CO2 capturing installations cannot be considered decarbonized.

The impact on the auto sector:

“Hard to abate” and “carbon capture and storage” are frequently used interchangeably. Some steelmakers appear to be using the term “hard to abate” as a justification for plans that are indefinite in the future decades while largely carrying on with business as usual.

Low capture rates will prevent any CCUS installations from sufficiently reducing the carbon footprint of steel production to meet the growing demand for truly green steel from steel consumers. Automakers are already executing buy orders for environmentally friendly steel produced with nearly zero emissions by employing green hydrogen. Soon, more precise definitions of what “green steel” really is should be anticipated.

Use case:

Less than 20% of all Scope 1 and Scope 2 emissions from Emirates Steel Arkan’s DRI-based steel plant were accounted for by the industry’s first and only commercial-scale CCUS plant, the Al Reyadah CCUS facility in the United Arab Emirates, in 2020 and 2021. Moreover, the captured CO2 is put to use in enhanced oil recovery (EOR), which increases the amount of fossil fuels produced and carbon emissions released.

Emirates Steel Arkan is now utilizing alternative technology for steel decarbonization, which it seems to think is more successful. The business is deploying green hydrogen to launch the first DRI-EAF pilot project.

CCUS is not likely to contribute to decarbonization in situations where there are better and more affordable alternatives. The production of genuinely low-carbon steel is made possible by the use of green hydrogen in DRI and renewable energy to run EAFs, a feat that CCUS appears unable to duplicate.

Analyst and co-authors notes:

Co-author and Global Steel Financial Analyst for IEEFA Soroush Basirat states: “No other commercial-scale carbon capture facilities for steelmaking have been built, despite being operational for eight years.

Lead Steel Financial Analyst at IEEFA Simon Nicholas said, “Major steelmakers’ plans for CCUS tend to be vague and push commercial-scale implementation of the technology off into the 2040s. With almost 50 years of existence, CCUS technology has a track record of severe underperformance.”

“The International Energy Agency (IEA) has historically relied on CCUS to achieve decarbonization, but it now seems to be beginning to change its perspective on the long-term decarbonization of the steel sector. In upcoming updates, we anticipate that the IEA will keep downgrading the contribution that CCUS is expected to make to the decarbonization of steel,” adds Nicholas.

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IREDA CMD: Need policies that fortify the supply chain network

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IREDA has acknowledged the need for robust policies to fortify the supply chain network.

During a panel discussion on “Future Growth Opportunities for Long Duration Energy Storage,” Pradip Kumar Das, Managing Director and Chairperson, IREDA, discussed the need to put policies in place that fortify the supply chain network.

The CMD asserted that implementing policies that strengthen the supply chain network is essential for the successful deployment of energy storage technologies. Providing competitive and tailored financial solutions will encourage investment in energy storage projects.

He said the strategic initiative would aid the nation’s transition to a greener future. He underlined how important energy storage will be to reaching the National Green Hydrogen Mission’s goal of producing more than 5 million metric tons of hydrogen annually (MTPA) by 2030.

To lower costs and improve the performance of energy storage solutions, the CMD emphasized the importance of stepping up research and development efforts. He said that offering affordable and customized financing options will stimulate investment in energy storage projects.

Mr Das participated in the panel discussion after opening an IREDA office in GIFT City.

The office will support manufacturing projects related to green hydrogen and renewable energy. Implementing natural hedging will significantly reduce financing costs for green hydrogen and renewable energy projects.

India has made significant progress in storage by creating a storage requirement roadmap, conducting technology-neutral tenders, and encouraging government initiatives for battery production and pumped storage hydropower projects. By 2030–32, the Central Electricity Authority of India projects that storage needs will approach 400 gigawatt-hours (GWh), requiring an investment of more than Rs. 3.5 lakh crores.

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Green Hydrogen Gaining Steam

Renjini Liza Varghese

Hydrogen, it seems, is India’s new Green Mine!

Suddenly, everyone seems to be focused on the green hydrogen space. Beginning with investment forecasts, corporates lead the way in investments, land distribution, and deadline extensions for submitting R&D proposals.

The developments come as a welcome move as green hydrogen plays a crucial role in India’s energy security and significant carbon emission reduction potential.

The green hydrogen pilots have succeeded, despite concerns about costs and the long way to commercialization. Nevertheless, leading corporates are committed to manufacturing green hydrogen, and policymakers are flexible in accommodating industries’ needs and demands.

Take, for example, the National Hydrogen Mission, which was initiated with a total budget of Rs 19,744 crore through the 2029–2030 fiscal year. The goal is to support large-scale, economically viable use of green hydrogen through the development of production technologies and the creation of an ecosystem. The objective is to establish India as a worldwide center for the generation, application, and sale of green hydrogen and its derivatives.

Significantly, in another development, the Ministry of New & Renewable Energy has extended the deadline for submission of R&D proposals under the National Green Hydrogen Mission to 27th April 2024. The development provides more time for academics and organizations to prepare. It must be noted that the government has issued guidelines for an R&D scheme with a budget of Rs 400 crore for the 2025-26 financial year, promoting green hydrogen usage.

India is projected to attract $125 billion in green hydrogen value chain investments by 20230 due to its cost-effective green hydrogen production advantages. When combined with the growing emphasis on sustainability and decarbonization, India’s renewable energy costs are among the lowest in the world, positioning the nation as a hub for competitively priced production. Furthermore, green hydrogen will accelerate India’s shift to a green economy.

Both the government and the corporate sector are taking the plunge.

Gujarat’s government has allocated 63,000 hectares for green hydrogen production in Kutch, Banaskantha, and Patan districts, following a previous allocation of 1.99 lakh hectares. Reliance New Energy, Adani New Industries, Torrent Power, ArcelorMittal Nippon Steel India, and Welspun Group were among the first recipients of the 1.99 L hectare allocation.

Reliance Industries Ltd. (RIL), Larsen and Toubro (L&T), Greenko Group, and Welspun New Energy are planning to establish green hydrogen and green ammonia units at Gujarat’s Deendayal Port Authority (DPA), according to a report published in The Economic Times titled “RIL to lead massive Rs 1 lakh crore investment in green hydrogen, ammonia units at Kandla.

According to ET, which cited reliable sources, the project is expected to draw investments of up to Rs 1 lakh crore, making it one of the biggest in India’s energy infrastructure. This will be one of the biggest investments made in the energy sector. India wants to become a world leader in green hydrogen production, and this is the goal of its National Green Hydrogen Mission.

While domestic consumption of green hydrogen by commercial and industrial users will drive early investments, the steel industry is expected to account for the largest share of off-take contracts in the near term.

While India positions itself as a leader in green hydrogen production, this technology presents both challenges and opportunities. Encouraging widespread adoption across industries, from vehicle manufacturers shifting to hydrogen-compatible models to achieving cost-effectiveness, will remain key hurdles.

 

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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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Policy for Adoption of Green Hydrogen for Renewable Energy

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The Ministry of New and Renewable Energy is working on the modalities of a new policy to promote the use of green hydrogen to support round-the-clock electricity.

The new policy is a part of the government’s thrust towards promoting increased adoption of renewable energy and use of green hydrogen as envisaged in the National Green Hydrogen Mission. 

The Union Minister for Power and New and Renewable Energy R. K. Singh chaired the meeting regarding using green hydrogen with solar and wind energy. 

Mr Singh has asked the officials to draft scheme guidelines for the green hydrogen and power sector, emphasizing the need for round-the-clock renewable energy to reduce costs and make it affordable.

Officials discussed green hydrogen storage options for round-the-clock and peak power demand. Another area of focus was government support mechanisms like a contract for difference methodology (CDM), based on market price differences and agreed strike prices.

 

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Govt. Nod for Green Hydrogen Pilots in the Shipping Sector

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The Indian shipping sector is getting a green hydrogen push.

Ms. Droupadi Murmu, The President of India has approved the start of the National Green Hydrogen Mission‘s Scheme for pilot projects on the utilization of green hydrogen in the shipping sector, marking a significant step towards sustainable maritime practices (NGHM).

Released by the Hydrogen Division of the Ministry of New and Renewable Energy, the directive outlines the goals and procedures for carrying out this project.

Goals:

Along with demonstrating safe and secure operations, the scheme evaluates how well green hydrogen works in ship propulsion, bunkering, and refueling systems at ports. Its main goals are:

To validate the technical viability and performance of green hydrogen and its derivatives as ship propulsion fuel on a real-world operational basis.
To support the deployment of these fuels on a pilot basis, and assess the economic feasibility of using them in the shipping industry.

Objectives:

The Shipping Corporation of India or SCI has been designated as the implementing agency to retrofit existing ships. The Ministry of Ports, Shipping, and Waterways (MoPSW) has also nominated another agency to handle the construction of bunkers and refueling facilities.

The overall objective of the NGHM, which is to promote sustainable energy practices and lessen the shipping industry’s carbon footprint, aligns with this initiative. The directive is accompanied by an annex that contains details on how the scheme will be implemented. The approval has the Minister of Power and New and Renewable Energy’s endorsement, which is a major step toward greener and cleaner maritime operations.

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Will India’s Budget Fuel Eco-Leap or Smog City Boom? 

Renjini Liza Varghese

Tomorrow, all of us will be glued to the TV to watch the budget announcements. No doubt it will be a populist budget as we are heading to General Elections in a few months. However, the net-zero target by 2070 may force the Union Finance Minister Nirmala Sitharaman to allocate funds for India’s transition to a sustainable future in this interim budget.

India is pushing its energy transition (renewable energy) narrative. However, with the buoyant growth in the economy, the country is scaling its capacity addition in power generation which is raising its carbon footprint. The country’s reliance on  RE is set to jump multi-fold with the target of 500 GW by 2030. Additionally, the production of nuclear power is increasing. In this regard, we anticipate a few policy adjustments to put India on a decarbonization path. Other emerging energy sources like hydrogen, offshore wind, and energy storage will attract attention. Modernization of grids, smart meters, green bonds, blue bonds and carbon markets are also in focus.

I have a gut feeling that we will see some green shoots. This is essential because this is India’s first budget after the G20 Presidency, during which we focused on “Lifestyle for Environment” (LiFE). I expect a reflection of LiFE in the budget with more measures for integration. This could be in the form of measures to attract investments in sustainable lifestyles, green education, and awareness campaigns that could empower citizens to adopt environmentally conscious practices.

Challenges:

Expectations are high. However, fiscal constraints present a challenge. The government needs to strike a balance between green ambitions and fiscal prudence. The finance ministry must ensure effective allocation and utilization of funds, address land acquisition hurdles for renewables projects, and create a conducive policy environment for private sector participation.

It is crucial to have a dynamic green finance framework. The development of dedicated green finance instruments like green bonds or climate-focused investment funds can attract private investments toward green initiatives. Leveraging innovative financing mechanisms, public-private partnerships, and carbon credits can bridge the gap.

Carbon market:

The much-talked-about national carbon market may get operational. This is the right step towards achieving India’s climate goals. This will no doubt encourage emission reduction efforts across industries as it gives financial incentives.

Continued actions:

We may see more focus on Green Technology Development with increased R&D funding. Green hydrogen, battery storage, and carbon capture and storage (CCS) can propel India’s technological leadership in climate action.

Green skilling:

There will undoubtedly be a mention of matching the industry demand for a skilled workforce in the upcoming budget. Investing in skilling and reskilling programs for green jobs would prepare the workforce which in turn will help the country transition to a green economy. In other words, it would guarantee a smooth and inclusive shift towards sustainable practices.

Greening the agri segment:

Agriculture, a major emitter, needs a green makeover. I expect budget allocation to support organic farming, natural farming, and precision agriculture technologies. In addition, water conservation technologies, irrigation efficiency improvements, and sustainable water management practices are also crucial for greening the agri sector. Focus on agri/rural waste management could further green the agricultural sector.

The RE push:

Scaling up renewable energy:  I anticipate that capital allocations for renewable energy (RE) projects will increase significantly. They are likely to surpass the Rs. 35,000 crores announced in the Budget 2023.  This could fuel solar, wind, and other renewable energy infrastructure development. This boost could be directed towards infrastructure development – green transmission corridors, smart meters, and R&D in emerging technologies like offshore wind and green hydrogen.

Expanding the Production-Linked Incentive (PLI) scheme for electrolyzer manufacturing would boost green hydrogen production, a vital element in India’s clean energy puzzle. This would incentivize domestic production of crucial components for green hydrogen generation.

Green mobility: More budgetary support is expected for the production of electric vehicles (EVs), the development of charging infrastructure, and battery storage solutions. This can involve the extension and expansion of existing EV purchase and production subsidies and tax breaks.

Sustainable public transportation may also get more focus. Transport projects like metro rail expansion and electric buses are the need of the hour.

Tomorrow’s budget has the potential to be a defining moment for India’s green journey. The government can put India on a fast track towards building a sustainable future. All eyes will be on the Finance Minister’s speech as we wait for her to set the path towards a greener tomorrow.

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Delta Electronics to Enhance Green Hydrogen Energy Stack

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Delta Electronics has signed a GBP43 million long-term collaboration agreement with Ceres Power Limited, involving technology transfer and licensing to access Ceres’ Hydrogen energy stack technology portfolio.

Through the partnership, Delta aims to develop soft oxide fuel cell (SOFC) and solid oxide electrolysis cell (SOEC) systems for hydrogen energy applications. These systems will enhance the green solutions and enable applications across the steel, chemicals, energy, and transportation industries. 

Delta’s plans:

The company is planning to establish a net-zero science laboratory to develop state-of-the-art zero-carbon technologies, such as hydrogen energy, and to enhance its R&D capabilities in related application fields at its Tainan manufacturing complex. 

This is in addition to licensing key energy stack technologies. With the assistance of Ceres’ engineering services, Delta plans to implement production line integration and product development at its Tainan plant between 2024 and 2026.  

To give its clients a more complete and adaptable low-carbon infrastructure offering, Delta plans to further integrate its array of smart energy solutions, such as microgrid applications and energy management platforms, with these hydrogen energy systems.

The Ceres stack tech fit:

Both SOFC and SOEC rely on Ceres’ stack technology. When used in conjunction with hydrogen or methane, SOFCs can produce heat, water, and electricity through chemical reactions. 

Compared to centralized gas-fired power generation units, which have an efficiency of roughly 40–50%, it has a power generation efficiency of roughly 60%, and with a heat recovery system, it can even reach 85%. SOFC can prevent power transmission loss and other unforeseen unstable factors during the transmission and distribution process because it can be built close to areas where electricity is needed. It is therefore ideal for establishments that need consistent power, the companies said in a joint press release.

When combined with industrial processes, SOEC technology can produce hydrogen up to 25% more efficiently than current low-temperature technologies. 

Green hydrogen produced by this technology using electricity from renewable sources would be ideal for decarbonizing several industries, such as chemical and steel, which aim to eventually reduce carbon emissions by substituting fossil fuel-based materials in their processes. With the help of carbon capture technology to supply its carbon sources, green hydrogen is also a crucial component in the production of carbon-neutral e-fuels. In the net-zero transition, e-fuels are substitute energy sources for internal combustion engines (ICE) in ships and airplanes.

Quotes:

Ping Cheng, CEO, Delta, said, “Hydrogen has high heating value and zero CO2 emission potential characteristics, and thus, will play a crucial role in the global transition towards net-zero. By leveraging Ceres’ expertise in solid oxide stack technology and our industry-leading technologies in power and thermal management, Delta will enrich its infrastructure solutions portfolio by delivering high-efficiency SOFC and SOEC systems for our customers worldwide, further contributing to global carbon reduction targets.”

Phil Caldwell, CEO, Ceres, said, “We believe Delta can deliver efficient clean hydrogen solutions for its customers utilizing both our SOFC and SOEC technologies. Green hydrogen has a key role to play in delivering a more secure and sustainable future energy system and we have taken this first step towards what promises to be a strong collaboration with Delta to accelerate the industry globally.” 

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Green Hydrogen on a Slow Track?

Sonal Desai

On the occasion of the 75th Independence Day celebration, Prime Minister Narendra Modi made a critical announcement to make “India Energy Independent Nation by 2047.” A nation that is on an energy transformation journey has integrated different energy sources, including green hydrogen.

India, the world’s third-largest economy in terms of energy needs, faces a 35% surge in energy demand by 2030. It requires non-traditional energy generation methods to achieve net-zero emissions by 2070.

The country has set ambitious targets to phase down fossil fuel consumption. The set targets are 50% of power generation from RE, 5 million tonnes of hydrogen, and 30% of EV penetration by 2030.

India constituted the National Green Hydrogen Mission in the year 2022 as an answer to energy security and emission reduction. The country, in the last budget (2023 February), has allocated Rs 197 billion for the mission. And it aims to be an exporting hub for green hydrogen.

However, the country’s green hydrogen production is lagging behind its target.

Challenges

  • The cost factor
  • Storage cost
  • Tax rebates and subsidies
  • Duty cuts
  • The gap in demand from the industry
  • Investment challenges
  • Technology maturity
  • R&D and innovation

The cost of green hydrogen is twice as high as gray hydrogen, with 30-50% going towards electrolyzer costs and the remaining towards renewable electricity.

To supply (round-the-clock) RTC energy, India must reduce the cost of energy storage. Thanks to indirect cost subsidies, batteries and other energy-storing devices could become less expensive. Customs duty exemptions or goods and services taxes are other possible forms of intervention.

A new report titled Green Hydrogen: Enabling Measures Roadmap for Adoption in India suggests ways to increase green hydrogen capacity in the country.

Authors Sachin Kotak, Partner, Bain & Company, and Jörgen Sandström, Head, Transforming Industrial Ecosystems, World Economic Forum, recommend a reduction in production costs to $2 per kg, with a direct subsidy of $0.50/kg for early adopters.

What will drive green hydrogen in the country?

Four types of users are likely to drive green hydrogen adoption: existing gray hydrogen users, industrial processors, transportation providers, and power and heating companies. Demand-side interventions should be tailored for each user, such as promoting blended hydrogen, which combines green and gray hydrogen with minimal impact on final product costs.

According to the authors, industrial clusters, consisting of co-located companies, can significantly reduce transportation and storage infrastructure costs, offer tech scale-up opportunities, share risk/resources, and optimize energy demand.

Responsible for 30% of global CO2 emissions, these clusters can accelerate green hydrogen adoption. The Transitioning Industrial Clusters Towards Net Zero initiative encourages participation. India could encourage cluster participation by allowing companies to bid for incentives and sharing success stories. The EU’s Hydrogen Backbone program could also benefit.

Four types of users are likely to drive green hydrogen adoption: existing gray hydrogen users, industrial processors, transportation providers, and power and heating companies. Demand-side interventions should be tailored for each user, such as promoting blended hydrogen, which combines green and grey hydrogen with minimal impact on final product costs.

India’s low-cost renewable energy, skilled workforce, and abundant land make it a potential hub for green hydrogen derivative exports. To capitalize, stakeholders should improve port infrastructure, allowing green hydrogen and ammonia manufacturers to establish storage bunkers near ports.

Subsidies:

More actions, such as increased PLI scheme subsidy support, are required to lower the cost of electrolyzers drastically and, consequently, green hydrogen.

India should encourage green hydrogen adoption and disincentivize carbon-intensive energy sources by diverting subsidies and funds towards green energy transition through a comprehensive carbon-tax regime.

Additionally, the country can increase direct subsidies for early adopters to drive down the cost of electrolyzers. During the first year of electrolyzer production, the Indian government provided $54/kW in subsidies through a production-linked incentive (PLI). The first tranche operated from July to October of 2023. Nevertheless, the cost of producing green hydrogen has only decreased by $0.1/kg thanks to this subsidy. To significantly lower the cost of electrolyzers and, consequently, green hydrogen, further interventions are required, such as increased subsidy support through the PLI scheme.

The National Green Hydrogen Mission:

The Indian government launched the National Green Hydrogen Mission in 2022 to address energy security and combat emissions in hard-to-abate sectors, but there is limited on-the-ground traction.

The 2022 national program aims to reduce dependence on imports of fossil fuel and feedstock and create export opportunities for Green Hydrogen and its derivatives to help the world fight climate.

It must be noted that as part of its Union Budget for 2023, India removed customs taxes on imported lithium-ion batteries for electric vehicles, potentially leading to a 20% price drop. Similarly, to promote the production of green hydrogen, India may exempt imported battery storage parts for RTC renewable energy.

In a nutshell:

  1. India’s green hydrogen production costs are currently $4-5/kg, double the cost of gray hydrogen.
  2. To reduce production to $2/kg, India could lower energy storage, provide renewable electricity, and implement indirect subsidies.
  3. Increase direct subsidies for early adopters to reduce electrolyzer costs.
  4. Minimize costs related to conversion, storage, and transport of green hydrogen and its derivatives by creating industrial clusters, promoting blended hydrogen, and capitalizing on India’s export potential.
  5. Divert investments away from carbon-intensive alternatives and into greener pathways through a comprehensive carbon-tax regime.
  6. Implementing easier measures can significantly impact India’s transition from an energy importer to an exporter, creating a win-win solution for energy security, economic growth, and environmental sustainability.
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Green Energy: Surat Takes a Kangaroo Leap

Sonal Desai

Surat known for its diamonds and textiles has added many feathers to its cap over the years. A decade back it started its journey in renewable energy, where the municipal corporation took the lead by adding 100 kW for solar rooftops for its consumption.

A few years later, with TERI they rolled out one of the fastest rooftop adoptions for the city, and its neighboring villages. Surat has taken the lead in the solar energy revolution in Gujarat.

With over 9,500 households installing rooftop solar panels, the city now boasts a collective capacity of 20 megawatts of solar panels each, reducing electricity bills to zero for many and earning a staggering Rs 4 crore in government subsidies.

The city is India’s 8th largest city, the 4th fastest-growing city globally, and a hub for the diamond and textile industry. With over 5,000 diamond manufacturing units and over 100 listed companies in the Surat SEZ, it is emerging as a leading jewelry production hub.

It continues its onward march toward green energy adoption.

WriteCanvas lists the top 5 use cases:

1. Food processing:

In 1999, Tapi Food Products conducted trials with Gadhia Solar to test if their tutty fruity product could be manufactured by using solar energy. In 2003, they established a new plant with a solar cooking system installation plan. The installation cost was initially around 15 lakhs, but with government subsidies, the cost was reduced to around 4 lakhs. The first Solar Steam Cooking System was installed in May 2007, generating 350kg/day of steam at 6kg/cm sq. pressure. The system has since produced around 120 tons of products, saving around Rs. 2000/ton and protecting the environment from air pollution.

2. Textiles:

Goldi Solar, a global solar panel manufacturer and EPC services provider has solarized Surat’s First Textile Market for Avadh Group.
The project, to be completed in three phases, will generate 497,400 KWh of power annually and offset 47.1 tons of CO2. The Avadh Textile Market is expected to save 37.5 lakhs annually on electricity.

3. Diamond:

The Surat Diamond Bourse (SDB) is India’s largest office building, boasting over 7.1 million square feet and nearly 4,500 diamond trading offices. The SDB also incorporates cutting-edge rooftop solar energy, implemented by URON Energy, ensuring sustainability in common areas and employing a radiant cooling system. The rooftop solar project features India’s largest floating foundation rooftop solar project, 100% puncture solar installation at unprecedented heights, over 37+ tons of HDG mounting structures, unique 3rd-generation inverter technology, and a waterless robotic cleaning solution. It consumes 50% less energy, achieving a remarkable 45 kWh/sq.m./yr compared to industry benchmarks.

4. Chemicals:

KPI Green has bagged the largest single LoI for executing a Wind-Solar Hybrid Power Project of 40 MW capacity from Anupam Rasayan India, Surat under Captive Power Producer (CPP). The capacity includes 21.50 MW wind and 18.5 MW solar.

5. Petrochemicals:

NTPC Ltd has commissioned India’s first green hydrogen blending project in the piped natural gas network of Kawas township, Surat. The joint effort between NTPC and Gujarat Gas Limited (GGL) began with the first molecule of green hydrogen being produced. The project aims to supply H2-NG (natural gas) to households in the Kawas township. The PNGRB has approved a 5% vol./vol. it is a blending of green hydrogen with PNG, with the blending level being scaled to 20%. This could bring India to the forefront of the global hydrogen economy.

 

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Banking, Renewable Energy, Financial sustainability

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ADB Approves $250M Loan to Power Indian Energy Sector

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The Asian Development Bank or ADB recently approved a $250 million policy-based loan to strengthen India’s power sector.

“ADB has been working with the Government of India to help ramp up its transition to clean and renewable energy and facilitate policy actions to ensure a sustainable, inclusive, and climate-friendly power supply,” said Len George, Principal Energy Specialist, ADB. “This policy-based loan will help reduce barriers to scale up commercial financing for clean energy and contribute to India’s fulfillment of its climate change mitigation commitments.”

How will the loan help:

The loan will enable the country to improve financial sustainability and facilitate the shift to renewable energy. It will:

• Enable measures to improve the financial performance, corporate governance, and service quality of electricity distribution companies (DISCOMs)
• Create a conducive environment for private-sector investment
• Aid in the implementation of an incentive-based results-oriented approach to improving DISCOM performance on parameters including losses, cost recovery, metering, and timely payment of dues to access government budget support

ADB and the power sector reform program:

The Power Sector Reform Program (Subprogram 1) is the first of a two-part program to strengthen power trade markets and ancillary services in India. It encourages renewable energy use in agriculture, accelerates solar deployment, and optimizes power plant dispatch. The policy-based loan will enable the country to achieve 50% non-fossil fuel capacity by 2030.

ADB is investing $1.5 million in capacity building and policy reforms in green hydrogen, a crucial sustainable energy source, in coordination with German development cooperation through KfW.

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Advanced Biofuel, Green Hydrogen, Refinery

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Technip Secures EPC Contract for Advanced Biofuels, Green H2 Units

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With advanced biofuels and green hydrogen units, Galp’s Sines refinery in Portugal is getting a green facelift.

Galp has awarded engineering, procurement services, and construction management contracts to Technip Energies for the project.

The projects are part of Galp’s program to reduce the carbon footprint of the refinery and its products.

The biofuel and green hydrogen projects:

The advanced biofuels unit is promoted by the joint venture of Galp (75 %) and Mitsui (25 %). The unit will have a 270 ktpa capacity and will produce renewable diesel and sustainable aviation fuel from bio-feedstock and waste residues. It will reduce 800 ktpa of greenhouse gas emissions. For this unit, Technip Energies will work in consortium with Technoedif Engenharia, an engineering firm in Portugal.

The green hydrogen unit comprises a 100 MW electrolysis plant. It will produce up to 15 ktpa of renewable hydrogen, using proton exchange membrane (PEM) electrolyzers which will be supplied by Plug Power. This unit will replace 20 % of the existing grey hydrogen consumption of the Sines refinery and reduce greenhouse gas emissions by up to 110 ktpa.

Both units represent a gross investment estimated at 650 million euros and will transform the Sines refinery into one of the most important low-carbon platforms in Portugal.

Quotes:

Marco Villa, Chief Operating Officer, Technip Energies, said, “Technip Energies, has been supporting Galp strategy since the early phases of the biofuels and the green hydrogen projects. We are delighted to be selected as a partner for the execution phase of both. This investment is another example of how Technip Energies enables the decarbonization of the energy industry through collaboration, innovation, and technology integration.”

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REC set aside Rs 40000 cr for Green Hydrogen and Thermal projects 

WriteCanvas News

The state-owned REC Limited has signed three MoUs totalling Rs 40,358 crores to support and finance various projects in Odisha.

They entered into an MoU with Odisha Power Generation Corporation (OPGC) to finance Rs 9,538 crore to develop two units (660×2 Mw) of thermal power project in Jharsuguda, Odisha. The collaboration will contribute significantly to the state’s power generation capacity and energy infrastructure.

REC will provide funding of Rs 16,000 crore for a green hydrogen and ammonia facility proposed at Gopalpur in the state. This will be in partnership with the Acme group.

REC said it has also entered into an MoU with Avaada Group, pledging Rs 15,000 crore for a green hydrogen and ammonia facility at Gopalpur.

The signing ceremony took place in the presence of Mr Vivek Kumar Dewangan, CMD of REC Limited, Mr Nikunj B Dhall, ACS Energy of the Government of Odisha, Mr Hemant Kumar, Principal Secretary Industries, and other senior officials from both REC and the Government of Odisha. Senior representatives from the Acme and Avaada Groups, critical partners in these ventures, were also present.

The total worth of all MoUs is Rs 40,538 crore and will play a pivotal role in enhancing energy infrastructure, promoting sustainable practices, and generating economic growth in Odisha.

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Green hydrogen

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Green hydrogen storage can reduce RE cost to Rs 6/unit

WriteCanvas News

The Union Minister for Power and New & Renewable Energy, Mr. R. K. Singh has said that round-the-clock renewable energy will cost about Rs. 6 per unit if green hydrogen is used for storage.

Speaking at the special ministerial session of the Fourth International Conference & Exhibition on Clean Energy in New Delhi, Mr. Singh said that the cost of green hydrogen would be cheapest in India and that it would become a viable energy storage alternative.

“”Green hydrogen is less expensive than gas and battery-based energy storage technologies. We have developed a pilot bid for approximately 100 MW that we hope will serve as the standard. All supply chain issues, including the availability of lithium-ion batteries, will be resolved once we are able to use green hydrogen for our energy needs. Green hydrogen will be produced and used as storage. If our cost for 24/7 renewable energy comes to Rs. 6 per unit—below the recent average price of power in the energy exchange of Rs. 8—we will be profitable. India has the potential to become a global champion in renewable energy,” he said.

Enablement:

1. Policy:
The minister stated that the government is considering allowing the industry to obtain carbon credits for green hydrogen and green ammonia that are exported from India. He informed that the basic legal framework for the carbon market to provide competitive advantage to the industry.

“We have been leading with policy papers, rules and regulations, opening new doors. We came with Green Open Access Rules, where we have given right for anybody to set up capacity anywhere and transfer it to wherever they want. I have written to all industry captains to switch over from thermal to renewables, this shift will also bring down price of energy,” he said.

2. Manufacturing:
India is emerging as a manufacturing powerhouse of renewable energy, said the minister.

“Around 88,000 MW renewable energy capacity is under construction and our plan is to add 50,000 MW of renewable energy capacity every year. We are already emerging as an exporter. The world will come to rely on us. So, all those who are setting up capacity have made a good bet. At the same time, we need to keep ourselves at the leading edge of technology,” Mr Singh said.

“We need energy demand as fast as possible to meet this demand. We will make the electricity required for our growth. If our price for round-the-clock renewable energy is anything to go by, then we will not have to go the thermal way, we will adopt the renewable path. About 42% of our capacity is from renewable sources already.”

3. Investments:

Mr Singh noted that this is the era of huge growth for the renewable energy.

Stating that more countries and corporates are investing in the renewable energy sector in the country, he said, “UAE wants to invest here. Getting investment for green transition is not an issue, since we have de-risked the system and made the whole system transparent. Each generator’s power bills are up-to-date. Legacy dues of discoms have been reduced to less than half, and this too will be wiped out in next 2 – 3 years. Every genco is now profitable. AT&C losses have come down and the system is totally viable now. Everything has been made conditional on prudential norms.”

4. National Green Hydrogen Mission:
The minister informed that 5.8 million tons of green hydrogen at various stages of capacity is already being set up, under the National Green Hydrogen Mission.

“We will be the biggest exporter since our green hydrogen and green ammonia cost is going to be the lowest in the world. And we will come up with another bid for grid scale storage. Future Renewable Energy Purchase Obligations are going to be issued under the revised Energy Conservation Act.”

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Decarbonizatiion

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NTPC and OIL Partner for RE and Decarbonization

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NTPC—the largest integrated power utility corporation and Oil India Limited (OIL), the second-largest national oil and gas company have partnered for renewable energy and decarbonization.

The two Maharatnas recently signed a Memorandum of Understanding to explore collaboration in renewable energy. Other areas of collaboration include green hydrogen and its derivatives, decarbonization initiatives including using geothermal energy and carbon sequestration.

The two entities aim to enhance their footprint in RE and propel India’s target of achieving Net Zero by 2070.

The MoU was signed in New Delhi in the presence of Mr. Gurdeep Singh, CMD, NTPC and Dr. Ranjit Rath, CMD, OIL; and their functional directors.

NTPC is committed to achieve 60 GW of Renewable Energy capacity by the year 2032. It aims to be a major player in Green Hydrogen Technology and Energy Storage domain.

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Green hydrogen

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Sinopec Launches 10,000 Ton Green Hydrogen Project

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In a significant breakthrough, Sinopec (China Petroleum & Chemical Corporation)’s 10,000-ton photovoltaic green hydrogen production project is now live.

The Sinopec Xinjiang Kuqa Green Hydrogen Project is a pilot project and is expected to produce 20,000 tons of green hydrogen annually at full capacity.

The newly produced green hydrogen will gradually replace existing natural gas and fossil energy at Sinopec Tahe Petrochemical. This will enable the hydrogen-producing company to realize low-carbon development in modern oil processing and green hydrogen coupling.

Operationalizing the project is considered a breakthrough in China’s scaled industrial applications of green hydrogen. With the project, China estimates to reduce carbon dioxide emissions by approximately 485,000 tons annually.

The Project is China’s first large-scale utilization of photovoltaic power generation to produce green hydrogen directly. The project, which utilizes solar resources in Xinjiang, has an electrolyzed water hydrogen plant with an annual capacity of 20,000 tons, a spherical hydrogen storage tank with a hydrogen storage capacity of 210,000 standard cubic meters, and hydrogen transmission pipelines with 28,000 standard cubic meters per hour.

With a focus on hydrogen transportation and green hydrogen refining, Sinopec is accelerating its hydrogen development by establishing more than 100 hydrogen refueling stations. With this, it will be the owner and operator of the largest number of hydrogen refueling stations in the world.

In addition to the current project, Sinopec’s green hydrogen project in Ordos, which will produce 30,000 tons annually, began construction in February 2023, while the Ulanqab project is now in the planning stage, the company said.

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Banking

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HSBC India’s Rs 15 crore boost for green hydrogen

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HSBC India has partnered with IIT Bombay, and Shakti Sustainable Energy Foundation (SSEF) for innovations in green hydrogen.

The new partnership will provide an impetus to the country’s National Hydrogen Energy Mission- announced in Budget 2021-22.

“These two partnerships, with total grant support of Rs 15 crore or about $ 2 million will focus on innovation projects that will help prioritize green hydrogen as a strategic alternate fuel, help in building a robust, green hydrogen economy, and achieve the government’s vision of an energy-independent nation,” HSBC said in a statement.

Announcing the partnerships, Nirmala Sitharaman, Union Minister for Finance, said the collaboration is aimed at making green hydrogen more efficient, cost-effective, and scalable.

The bank’s partnership with IIT Bombay will focus on developing green hydrogen production, storage, transportation, and utilization technologies. The collaboration with SSEF will focus on a geospatial analysis of industrial clusters in Gujarat, Maharashtra, Jharkhand, and Chhattisgarh that have the potential to produce and use green hydrogen.

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