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IREDA to Establish Retail Subsidiary

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Indian Renewable Energy Development Agency Limited (IREDA) has plans to establish a wholly-owned retail subsidiary for its retail business.

The retail subsidiary will offer products and solutions for PM-Suryaghar (Rooftop Solar), PM-KUSUM schemes and B2C segments in RE and Emerging RE sector including EVs, Energy Storage, Green Technologies, Sustainability, Energy Efficiency, etc.

IREDA has received in-principle approval from the Department of Investment and Public Asset Management (DIPAM) for the same.

Commenting on the development, Mr Pradip Kumar Das, Chairman & Managing Director, IREDA, said, “This new retail subsidiary marks a significant milestone in our journey towards fostering sustainable energy solutions at the grassroots level. By extending our expertise in renewable energy finance to the retail market, we will provide innovative financing options for both urban and rural consumers, promoting sustainable practices and reducing carbon footprints.”

This expansion aligns with the Government of India ’s vision to accelerate renewable energy adoption across the nation and create new opportunities in the clean energy sector, he said.


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SLB, TotalEnergies Partner for Next-Gen Energy Solutions

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SLB and TotalEnergies have announced a 10-year partnership to facilitate better performance and energy efficiency.

The partnership establishes a flexible framework for companies to collaborate on tackling key challenges in the energy value chain, including carbon capture, utilization, and sequestration (CCUS).

The partnership will initially focus on subsurface digital solutions for reservoir engineering and geoscience modeling, utilizing Delfi on-demand reservoir simulation and AI for automation.

The strategy is in line with Open Group’s OSDU Technical Standard. The co-development will benefit TotalEnergies’ global operations and SLB’s worldwide customer base.

“Collaboration and knowledge sharing are key for our industry to continuously develop more effective ways of unlocking energy access,” said Rakesh Jaggi, President, Digital & Integration Business, SLB.

“Through this digital partnership we will develop cutting-edge next-generation software, digital applications and new algorithms applied to geoscience. Thanks to these innovative modeling technologies, we will not only be better able to utilize the analyses of geological reservoirs and basins in the Oil & Gas sector to reduce emissions but also to make further progress in geological carbon storage,” said Namita Shah, President, OneTech, TotalEnergies.


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Sungrow Achieves 20GW Shipment Milestone in India

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Sungrow, a global PV inverter and energy storage system supplier, has shipped 20 GW of photovoltaic inverters to India. This achievement for the company shows Sungrow’s capabilities as a clean energy solutions provider in India.

The company entered the Indian market in 2014 with three offices in New Delhi, Mumbai, and Bengaluru. It established a manufacturing facility with a 10 GW annual capacity.

Sungrow’s 20GW milestone is supporting India’s growing demand for clean energy. The company’s innovative “1+X” modular central inverter and the new generation 320kW string inverter have increased its market share.

The company has several GW partnerships with TATA Power, Adani Green, ReNew Power, Azure Power, O2 Power, Mahindra, ACME, S&W, L&T, and others.

The company actively participates in formulating renewable energy policies and standards within Indian government departments. It conducts extensive research and development in clean energy technology along with local universities, scientific research institutions, and other public service activities.

“At Sungrow, we hope to create a sustainable world by providing innovative and reliable clean energy solutions,” said Sunil Badesra, Country Head of Sungrow India.


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Semiconductor, Scope 3 emissions

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Upping the Scope 3 Upstream Emissions ante in the Semiconductor Industry

Sonal Desai


The next time you switch on your TV or laptop, or click your smartphone, take a pause.

The world is becoming digital. So does the demand for semiconductors increase? Semiconductors are a vital component that controls and manages the flow of electric current in electronic equipment and devices. According to estimates, the global semiconductor market is projected to reach $515 billion in 2023.

However, the spurt in demand comes with environmental damage.

According to the Environmental Protection Agency, semiconductor manufacturing uses gases with high global warming potential. These include perfluorocarbons and hydrofluorocarbons—major contributors to Scope-3 emissions globally.

Scope 3 refers to the company’s other indirect emissions beyond the company’s direct operations and occur in the company’s value chain, such as upstream transportation and distribution, business travel, and purchased goods and services.

Primary sources:

Semiconductor manufacturing contributes to 31% of global greenhouse gas emissions.

Chip production requires a significant amount of water and electricity. According to a Harvard University study, manufacturing accounts for nearly 75% of all CO2 emissions associated with electronic communication devices, which is a significant increase over emissions from the power used by the devices over their useful lives. In turn, the production of the semiconductors used in these devices accounts for the majority of the emissions generated during manufacturing. The environmental impact increases as chip power increases.

A recent McKinsey survey reveals that typical fabrication’s upstream emissions come from three primary sources, which is an overlooked yet crucial category. Scope 3 upstream emissions are primarily attributed to purchased materials (62%), maintenance services (22%), spare parts (22%), and supplier transportation (6%).

Most programs up to this point have concentrated on two categories of emissions: those that are directly connected to operations inside their fabs (Scope 1) and those that result from the production of externally purchased electricity, steam, heating, and cooling equipment (Scope 2). The goal now is to reduce Scope 3 emissions.

The authors note that many semiconductor companies might also calculate their Scope 3 upstream emissions using false assumptions. For instance, aluminum. While most industries can use 99 percent pure aluminum with no complications, semiconductor companies often require 99.9 percent purity—and that slight improvement requires far more energy, partly because of repetitive melting and cooling as well as the electrochemical purification required, which increases the emissions. Numerous other materials follow the same pattern.

Challenges:

Companies can achieve net-zero goals by incorporating Scope 3 upstream emissions from suppliers providing services or materials for chip manufacturing, as Scope 1 and 2 emissions only account for 65% of total GHGs.

Many fabs face issues with Scope 3 upstream emissions, including materials, services, or suppliers, due to unclear information about their priorities in renewable energy. For example, nitrogen trifluoride (NF3), commonly used in semiconductor fabrication, has a high global warming potential, with fugitive emissions potentially exceeding actual production emissions.

The levers:

Fab companies’ collaboration with suppliers contributes to half of emissions from chemicals, wafers, and gases. The involvement of top leadership is crucial for promoting decarbonization across operations, technology, development, and procurement.

Green supply chain: Semiconductor companies are hesitant to address Scope 3 upstream emissions due to difficulties in promoting decarbonization and transparency, largely due to emissions fragmentation across multiple materials and suppliers.

They are enhancing waste management, product specifications, and material usage by utilizing new methodologies, automated baselining tools, and decarbonization in cross-functional programs.

Fab companies collaborate with numerous suppliers for material procurement. Our analysis reveals that six to ten suppliers contribute to half of emissions from chemicals, wafers, and gases, while three to five suppliers contribute more than half.

Top leadership involvement is crucial for promoting decarbonization across various functions such as operations, technology, development, and procurement.

Supplier decarbonization: McKinsey suggests that fabrication companies should assist suppliers in reducing their carbon footprint in chemicals, wafers, and gas, transitioning from Tier 1 to smaller ones, or collaborating on decarbonization programs.

Tier 2 suppliers, who contribute to fabs’ Scope 3 emissions, should be included in decarbonization initiatives. Tier 1 suppliers, as end customers, can exert pressure on Tier 2 to reduce emissions.

Semiconductor companies can enhance vendor performance by implementing innovative procurement strategies, such as promoting vendors with lower emissions or those who disclose their emissions.

Waste reduction: Semiconductor companies are addressing Scope 3 emissions by improving waste management, product specifications, and material usage, and involving top leadership in decarbonization across operations, technology, development, and procurement.

Recycling and energy efficiency: Leaders in the industry can set an example. Fabs can reduce waste by implementing recycling programs, eliminating impurities, and implementing on-site recycling for ultra-high purity aluminum, meeting semiconductor industry standards.

Fabs can reduce conventional energy emissions by offering financial incentives, partnering with innovative production methods, and promoting renewable energy usage. However, effectiveness may vary depending on supplier location, McKinsey cautions.

Materials optimization: Fabs can produce goods with lower emissions, but businesses must establish R&D, quality, and engineering teams to review product specifications, evaluate alternatives, and find better manufacturing processes, McKinsey states.

Fabs can produce goods with lower emissions, but R&D, quality, and engineering teams must review specifications, evaluate alternatives, and collaborate with trade associations for environmentally friendly alternatives.

Product-specification adjustments: Fabs should initially focus on simpler solutions like using lower-grade chemicals during wafer-cleaning steps to reduce emissions without significantly altering product specifications. Over time, they can explore complex process changes throughout the supply chain, to meet zero emissions demands.

Businesses can reduce Scope 3 emissions by focusing on six to ten suppliers, which account for half of emissions in chemicals, wafers, and gases, requiring operational and product changes.

Conclusion:

Many semiconductor companies struggle with supplier switching, suggesting that extensive efforts may yield better results. Due to their broad scope, Decarbonization initiatives will require top leadership and stakeholders from various groups, including operations, procurement, and R&D. Semiconductor companies are implementing initiatives to decrease Scope 3 upstream emissions, potentially becoming early leaders in this area.


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Tata Steel

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Tata Steel, ABB partner for energy, decarbonization, circularity

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Tata Steel and ABB India have signed a Memorandum of Understanding (MoU) regarding energy efficiency, decarbonization, circularity

As per the MoU, the two companies will focus on system-level assessments of Tata Steel’s manufacturing plants and production facilities to reduce the carbon footprint in steel production. The two companies will evaluate and co-develop short and long-term options for energy efficiency, decarbonization, and circularity in plants and production facilities.

Tata Steel and ABB are exploring integrated electrification and digital systems, including ABB Ability e-Mine and e-Mobility solutions, for energy optimization using hydrogen as a substitute fuel.

The partnership will enable Tata Steel to pursue its carbon neutrality target by 2045 as one of its major sustainability goals. In line with its aspirations, the steelmaker has a medium-term target to reduce carbon emissions to less than two tons of CO₂ per ton of crude steel in its Indian operations by 2025.

“The World Economic Forum figures anticipate the energy transition will require three billion tons of metals over the medium-term; six times more mineral inputs by 2040 to reach net-zero emissions globally by 2050. ABB is confident in working with our customers and partners to evolve how steelmaking is powered to help reach production and environmental targets,” said Vipul Gautam, Group Vice President, Global Account Executive for Tata Group, ABB.

The global steel industry contributes between 7 to 9 percent of global fossil fuel CO₂ emissions, according to various sources including the International Energy Agency (IEA).


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GHG emissions

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India enroute to reduce 45% emissions by 2030

Sonal Desai


According to a Third National Communication (TNC) report, India’s greenhouse emissions, emitted for every unit increase of gross domestic product (GDP) – fell by 33% from 2005 to 2019.

The rise in RE generation and increase in forest cover will enable India to reduce emissions intensity by 45% from the 2005 level by 2030—the country’s commitment to the United Nations Convention on Climate Change (UNFCCC).

“The entire world is grappling with climate change. India has shown the way to combat it,” Prime Minister Narendra Modi said in his address to the nation from the Red Fort on the 77th Independence Day.

SDGs addressed:

  • 13 Climate Action
  • 13.2 Integrate climate change into national policies, planning
  • 13.b Build capacity for climate change planning, management

The target:
India has set a target to reduce:
The carbon intensity of its economy by at least 45 percent by 2030
Reduce the total projected carbon emissions by one billion metric tons through 2030
Achieve the target of net zero by 2070.

The task:
India must eliminate coal by 2040 and reduce emissions by 2030 to meet 1.5°C temperature limit; 2023-24 budget includes clean energy projects.

The National Action Plan on Climate Change (NAPCC), which includes missions in particular areas of solar energy, energy efficiency, water, sustainable agriculture, Himalayan ecosystem, sustainable habitat, green India, and strategic knowledge for climate change

The initiatives:
The National Adaptation Fund for Climate Change (NAFCC): To support adaptation efforts in States and Union Territories, with 30 projects approved in 27 states and UTs.

ISA: To promote solar energy utilisation and facilitate cooperation among solar-rich countries.

CDRI: To enhance infrastructure resilience in natural and man-made disasters by collaborating governments, organizations, and experts on strategies, policies, and technologies.

Leadership Group for Industry Transition (LeadIT): For voluntary low carbon transition of sectors that are difficult to reduce carbon emission

The International Big Cat Alliance: To protect and conserve seven major big cats – tiger, lion, leopard, snow leopard, puma, jaguar and cheetah globally.

New initiatives under CDRI and ISA, such as Infrastructure for Resilient Island States (IRIS) and Green Grids Initiative—One Sun One World One Grid (GGI-OSOWOG), were also introduced at COP26 in Glasgow in November 2021.

Conclusion:
India has been successful in adopting renewable energy. At present, it has a 160GW of RE capacity in its energy mix which is 40% of the total installed capacity. The country to reach the nether capacity is aggressive in RE capacity addition. The target is to achieve 500GW from RE by 2030. Going by the reduction scene in emissions, the RE capacity will help further lower the country’s emissions!


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