In its analysis, Ember examined grid capacity across 20 EU countries and found the major gap was at the transmission level, with a possible shortfall of 104 GW that would affect utility-scale solar projects.

South Australia could see its peak load double from 3.3GW today to 6.5-7GW by 2040, driven by data centres, green steel and hydrogen demand.

In this news roundup, Unigrid, Inlyte Energy, CIUDEN, and Sunamp are advancing non-lithium energy storage technologies worldwide.

Transgrid has shortlisted nine utility-scale battery storage projects, totalling up to 2GW, to provide critical system strength services.

The New South Wales IPC has approved Ausgrid's 400MWh Steel River East BESS located within the Hunter and Central Coast REZ.

Deutschlands Wasserstoff-Backbone existiert heute als Stahl im Boden und als unter Druck stehende Pipeline. Doch die wichtigere Infrastruktur wurde lange vor dem ersten ausgehobenen Graben geschaffen. Diese Infrastruktur war intellektuell. Eine lange Abfolge von Studien, Modellen und politiknahen Analysen erzeugte den Eindruck, dass Wasserstoff für großskalige Energienutzung nicht nur plausibel, ... [continued]

The post Von optimistischen Modellen zu leeren Pipelines: Die intellektuelle Geschichte von Deutschlands Wasserstoff-Backbone* appeared first on CleanTechnica.

Recently I took part in a discussion in Ottawa as part of CAFES Network’s work to raise local energy literacy, hosted by Invest Ottawa and attended by a mixed audience of residents, municipal and provincial policy observers, students, and people already working in energy and climate. Angela Keller-Herzog, founding executive ... [continued]

The post Why Waiting on Grid Batteries Will Cost Ontario More Than Acting Now appeared first on CleanTechnica.

Ontario Power Generation (OPG) has asked the Ontario Energy Board to approve a sharp increase in regulated nuclear payment amounts, including a year over year jump of more than 40% in 2027. The weighted average regulated payment amount rises from about $78/MWh in 2026 to roughly $110/MWh in 2027, driven ... [continued]

The post Ontario’s Nuclear Rate Shock Reveals a Deeper Affordability Problem appeared first on CleanTechnica.

Weather is big news these days, and winter storms make for great clickbait. (Okay, I’ll admit that I’m a bit culpable here.) The US Eastern seaboard is in the midst of a rolling series of winter storms — wind, ice, sleet, and snow have caused upheavals in communities. Sure, the ... [continued]

The post Winter Storms Wreak Havoc — Blame Fossil Fuels, Not Renewables appeared first on CleanTechnica.

Deutschlands Wasserstoff-Backbone existiert heute als Stahl im Boden und als unter Druck stehende Pipeline. Doch die wichtigere Infrastruktur wurde lange vor dem ersten ausgehobenen Graben geschaffen. Diese Infrastruktur war intellektuell. Eine lange Abfolge von Studien, Modellen und politiknahen Analysen erzeugte den Eindruck, dass Wasserstoff für großskalige Energienutzung nicht nur plausibel, ... [continued]

The post Von optimistischen Modellen zu leeren Pipelines: Die intellektuelle Geschichte von Deutschlands Wasserstoff-Backbone* appeared first on CleanTechnica.

Power Grid Corporation of India Limited (POWERGRID), a leading Government of India enterprise, has achieved a major milestone in strengthening the country’s renewable energy infrastructure. On February 2, 2026, the […]

The post POWERGRID Commissions 4.5 GW Transmission Project To Boost Renewable Energy Evacuation At Khavda appeared first on SolarQuarter.

Deutschland hat inzwischen rund 400 Kilometer Wasserstoff-Backbone-Pipeline fertiggestellt und unter Druck gesetzt, ohne angeschlossene Lieferanten und ohne vertraglich gebundene Abnehmer — eine Pipeline von nirgendwo nach nirgendwo. Die Infrastruktur existiert und ist betriebsbereit, aber es fließt kein Wasserstoff zu irgendjemandem, der sich verpflichtet hat, dafür zu bezahlen. Dies ist kein ... [continued]

The post Die Opportunitätskosten des deutschen Wasserstoff-Backbones* appeared first on CleanTechnica.

Stichting Clean Energy and Energy Inclusion for Africa (CEI Africa), through its Crowdlending Window, along with crowdfunding platform Energise Africa, has mobilised $2.9 million in financing to support the development […]

The post CEI Africa and Energise Africa Mobilise $2.9 Million to Develop Nine Solar Mini-Grids in Rural Benin appeared first on SolarQuarter.

CrossBoundary Access, Africa’s first blended finance platform for mini-grids, and ANKA, a leading mini-grid developer, have completed the acquisition of an asset company owning four operational mini-grid projects in Madagascar. […]

The post CrossBoundary Access and ANKA Acquire Four Operational Mini-Grids in Madagascar appeared first on SolarQuarter.

In Short : Santosh Kumar Sarangi, Secretary of MNRE, emphasized that India’s renewable energy focus must evolve from mere capacity addition to strengthening grid infrastructure and domestic manufacturing. He highlighted that integrating renewables efficiently, scaling battery storage, and boosting local manufacturing are critical to sustaining growth, ensuring energy security, and supporting India’s long-term clean energy and decarbonization goals.

In Detail : Santosh Kumar Sarangi, Secretary of the Ministry of New and Renewable Energy (MNRE), stressed that India’s renewable energy strategy needs a fundamental shift. While capacity additions have been impressive, the focus must now move toward strengthening grid infrastructure, integrating distributed energy resources, and building a resilient renewable energy ecosystem that can sustain long-term growth.

Sarangi highlighted that India’s record renewable installations have brought the country to the forefront globally, but challenges remain in grid management, intermittency, and storage. To maintain momentum, India must invest in smart grids, flexible transmission networks, and digital solutions that allow renewable energy to be efficiently integrated without compromising reliability.

Another key area Sarangi emphasized is domestic manufacturing. India’s renewable transition cannot rely solely on imports of solar modules, wind turbines, and batteries. Developing local manufacturing capabilities is essential for energy security, reducing costs, creating jobs, and establishing a self-reliant ecosystem for critical clean energy technologies.

The MNRE Secretary also pointed out the importance of energy storage and hybrid solutions. Battery systems, pumped hydro, and other storage technologies are vital to manage variability, provide grid stability, and ensure that high shares of renewable energy can be delivered consistently to consumers and industries.

Sarangi stressed that policy and regulatory frameworks need to evolve in tandem with technological development. Efficient grid integration, market mechanisms for storage and flexibility, and incentives for domestic manufacturing are essential to ensure that India’s renewable push translates into reliable, sustainable, and cost-effective energy systems.

He also highlighted that the transition from capacity addition to infrastructure focus would create multiple economic benefits. Strengthening grid networks and expanding manufacturing can generate jobs, attract investment, and foster technological innovation, positioning India as a global hub for clean energy solutions.

Sarangi emphasized that decentralized energy, such as rooftop solar, community microgrids, and P2P trading, must be integrated into national planning. This requires modern grid architecture and digital monitoring to enable two-way power flows while maintaining stability across regions with varying generation and consumption patterns.

The Secretary called for a collaborative approach involving industry, academia, financial institutions, and government bodies to accelerate the transition. Investments in R&D, skill development, and advanced manufacturing capabilities are crucial for building a robust and resilient renewable ecosystem capable of meeting India’s ambitious climate and energy targets.

Overall, Sarangi’s message underscores that India’s renewable energy journey must now evolve from quantitative growth to qualitative development. By focusing on grid modernization, energy storage, and domestic manufacturing, the country can achieve a sustainable, secure, and self-reliant energy future while strengthening its leadership in the global clean energy transition.

In Short : India is set to begin pilot projects under the India Energy Stack, starting with peer-to-peer electricity trading. The initiative aims to build a unified digital foundation for the power sector, enabling direct energy transactions between consumers and prosumers, improving data interoperability, supporting renewable integration, and transforming the electricity market into a more transparent, decentralized, and technology-driven ecosystem.

In Detail : India is on the verge of launching the first pilot projects under the India Energy Stack, a national digital initiative designed to modernize the country’s power sector. These pilots mark a critical shift from traditional electricity systems toward a digitally enabled framework where data, transactions, and grid operations are integrated through standardized platforms. The initial focus on peer-to-peer electricity trading reflects a growing emphasis on decentralization and consumer participation in energy markets.

The India Energy Stack is being developed as a comprehensive digital backbone for the entire electricity ecosystem. It seeks to connect utilities, regulators, system operators, power producers, and consumers through common digital protocols. By creating a shared infrastructure for data exchange, the stack aims to eliminate silos, improve coordination, and ensure that all stakeholders can operate within a unified and interoperable system.

At the heart of the first pilot is peer-to-peer power trading, a model that allows electricity to be bought and sold directly between users. Prosumers, such as households and businesses with rooftop solar systems or other distributed energy resources, can sell excess electricity to nearby consumers. This creates a more flexible and market-driven environment, reducing dependence on centralized generation and empowering users to actively participate in the energy economy.

This new trading model has the potential to redefine how electricity flows across the grid. Instead of a one-directional system where power moves only from large generators to end consumers, peer-to-peer trading introduces a multi-directional structure. Electricity can flow between multiple points, enabling local energy balancing, reducing transmission losses, and improving overall grid efficiency through smarter digital coordination.

The pilot projects will also test how regulatory frameworks adapt to this evolving market structure. Electricity regulators and distribution companies are expected to play a crucial role in ensuring that peer-to-peer trading remains secure, transparent, and aligned with grid stability requirements. These pilots will help identify policy gaps, technical challenges, and commercial models needed for wider adoption.

Unlike conventional power exchanges, the India Energy Stack will not function as a centralized trading platform. Instead, it will provide open digital standards and interfaces that private technology companies can use to develop innovative applications. These platforms can offer services such as energy trading, billing, settlement, forecasting, and analytics, creating a competitive digital marketplace around electricity services.

A major advantage of this approach is its potential to significantly enhance renewable energy integration. As solar rooftops, battery storage systems, and electric vehicles become more widespread, the digital stack can enable these resources to interact intelligently with the grid. Prosumers can optimize their energy usage, store surplus power, and sell electricity during peak demand periods, making renewables more economically attractive.

Over time, the India Energy Stack could unlock advanced energy services such as real-time pricing, demand response programs, flexible tariffs, and energy-based financial products. Consumers may gain access to personalized energy plans, while utilities can use data-driven insights to improve planning, reduce losses, and enhance system reliability across urban and rural areas alike.

Overall, the India Energy Stack represents a transformative step toward building a digital-first power sector. By enabling peer-to-peer trading and creating a shared technological foundation, the initiative has the potential to reshape electricity markets, empower consumers, accelerate clean energy adoption, and establish a more resilient, transparent, and future-ready energy ecosystem for India.

Battery energy storage projects have emerged as the dominant force in Australia's energy investment landscape, accounting for 46% of the nation's 64GW development pipeline, according to the Australian Energy Market Operator's (AEMO) latest quarterly report.

US sodium-ion (Na-ion) battery technology company Unigrid has begun international shipments of its proprietary sodium cobalt oxide (NCO) cathode cells at commercial volume.

Bigger, longer-duration projects and more sophisticated deal structuring are driving the energy storage industry forward, but a lack of common approaches from transmission system operators (TSOs) remains a challenge.

Preparing to kick off the Burnaby Board of Trade’s 2026 Clean Energy Summit next month felt like the right moment to take inventory. Burnaby sits inside a province where roughly 98% of electricity is already non emitting, hosts a dense cluster of clean energy companies, and also contains a noticeable ... [continued]

The post The Future Is Already Here, It’s Just Unevenly Distributed appeared first on CleanTechnica.