Visionary entrepreneur and global business leader Zaya Younan, Founder and Chairman of Younan Company, has announced a strategic expansion into large-scale renewable energy with the launch of a major utility-scale […]

The post Visionary Entrepreneur Zaya Younan Enters Renewable Energy With 880 MW Solar + 460 MW Battery Project In California, Generating $100M Annually appeared first on SolarQuarter.

In Short : The Telangana Cabinet has approved the creation of a third DISCOM to manage high-demand sectors and unveiled a comprehensive power sector expansion plan. Key measures include procurement of 3,000 MW solar power, development of 10,000 MW pumped storage capacity, new thermal projects, captive power liberalization, and underground power infrastructure for Hyderabad.

In Detail : The Telangana Cabinet has approved the establishment of a third power distribution company as part of a major restructuring of the state’s electricity sector. The decision aims to strengthen power management, improve operational efficiency, and prepare the state for rapidly rising electricity demand driven by urbanization, industrial growth, and expanding irrigation needs.

Currently, electricity distribution in Telangana is handled by two entities, NPDCL and SPDCL. The proposed third DISCOM will exclusively serve high-demand and essential sectors, including agriculture, lift irrigation projects, Mission Bhagiratha drinking water schemes, HMWSSB services, and safe drinking water supply systems.

By separating these critical and high-consumption segments, the government expects to reduce financial and operational stress on existing DISCOMs. This restructuring is intended to improve monitoring, enhance service quality, and ensure uninterrupted power supply to sectors vital for public welfare and economic stability.

The Cabinet conducted a detailed review of the state’s current and future electricity requirements, noting that demand is expected to rise sharply over the next decade. Population growth, industrial expansion, urban development, and irrigation infrastructure are expected to significantly increase overall power consumption.

To address sustainability goals, the government approved floating tenders for procuring 3,000 MW of solar power under time-bound five-year agreements. This move reflects Telangana’s intent to reduce reliance on conventional thermal power and expand its renewable energy footprint.

In parallel, the Cabinet approved plans to procure 2,000 MW of pumped storage power and permitted private investors to develop pumped storage projects. Pumped storage is seen as a key solution for balancing renewable energy variability and strengthening grid stability.

The government also cleared proposals to develop up to 10,000 MW of pumped storage capacity, with the state providing land and water resources. A critical condition is that power generated from these projects must first be offered to Telangana DISCOMs to ensure long-term energy security.

Under its Clean and Green Energy Policy, the Cabinet allowed newly established industries to generate captive power without any capacity limits. This policy aims to promote industrial self-reliance, reduce stress on public grids, and attract greater domestic and foreign investment into the state.

On the conventional front, the Cabinet approved an 800 MW thermal power plant at NTPC Ramagundam and proposed new NTPC units at Palvancha and Maktal. Additionally, Hyderabad will get an underground power cable system costing ₹14,725 crore, improving reliability, safety, and urban infrastructure efficiency.

The UK-based perovskite solar PV specialist has announced a new metrology research project with Swansea University and a new development agreement with Renolit, a German plastic films, sheets and polymer solutions company.

Power Roll, a UK-based perovskite solar PV specialist, has announced a new metrology research project with Swansea University and a joint development agreement with Renolit, a German plastic films, sheets and polymer solutions company, which will begin with an outdoor field trial in Germany.

In the U.K., samples of Power Roll's patented flexible, micro-groove perovskite solar PV film will be provided to researchers at Swansea University and the National Physical Laboratory in a six-month feasibility project to support the development of inline and end-of-line testing tools for perovskite solar cells.

It also involves the development of stability guidelines for industry standards. Without these advancements, perovskite solar cell companies “could face significant hurdles in achieving product accreditation,” noted the company.

“The project will support scalable roll-to-roll manufacturing of lightweight perovskite PV, delivering commercial prototypes, testing protocols, and an invited academic review to strengthen UK capability in advanced semiconductor photovoltaics,” Nathan Hill, Power Roll Senior Scientist, told pv magazine.

It entails assessment of standards, metrology techniques, equipment, routes to characterize large scale devices and artificial intelligence (AI) pertaining to monitoring during manufacture.

In December, Renolit and Power Roll announced an 18-month joint development agreement that will begin with an outdoor trial of the UK company’s micro-groove perovskite prototypes on a Renolit building façade in Germany.

The initial deployment will be one to two square meters. There are plans to scale it up in size and power capacity as the project progresses, according to Hill.

“The purpose is to monitor and validate real-world performance and durability, and to understand the potential of the micro-groove solar technology,” Neil Spann, Power Roll CEO, told pv magazine.

Renolit has a commercial interest as a potential supplier of certain film layers to Power Roll, but also to explore integrating Power Roll's solar film into its existing building materials product lines, and to explore the potential of manufacturing under license in Europe, according to Spann.

Power Roll has also completed tests of smaller devices at its headquarters.

Renolit France, the French branch of the German company, recently launched a new PVC-based mounting product for rooftop PV systems.

Power Roll, founded in 2012, has proven its technology and manufacturing process, and secured 27 patent families.

Niger State is collaborating with the Islamic Development Bank on a $163 million solar project to enhance Nigeria's energy security. Several projects across Africa, including floating solar in Nigeria and geothermal expansion in Kenya, showcase the increasing focus on renewable energy to support sustainable development and economic growth while addressing energy challenges.

The post Africa Weekly Updates: Niger State Solar Funding Deal; CCECC Wins 7 MW Floating Solar; CrossBoundary Madagascar Expansion and More… appeared first on SolarQuarter.

Abbas Nikroo, deputy director for physics integration at Lawrence Livermore National Laboratory's National Ignition Facility (NIF), has received the 2025 Distinguished Career Award by Fusion Power Associates.

The post Abbas Nikroo of Livermore’s National Ignition Facility Wins FPA Distinguished Career Award appeared first on Inside HPC & AI News | High-Performance Computing & Artificial Intelligence.

NVIDIA Run:ai v2.24 introduces time-based fairshare, a new scheduling mode that brings fair-share scheduling with time awareness for over-quota resources to...

NVIDIA Run:ai v2.24 introduces time-based fairshare, a new scheduling mode that brings fair-share scheduling with time awareness for over-quota resources to Kubernetes clusters. This capability, built on the open source KAI Scheduler that powers NVIDIA Run:ai, addresses a long-standing challenge in shared GPU infrastructure. Consider two teams with equal priority sharing a cluster.

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Today’s best AI agents rely on retrieval-augmented generation (RAG) to enable more accurate results. A RAG system facilitates the use of a knowledge base to...

Today’s best AI agents rely on retrieval-augmented generation (RAG) to enable more accurate results. A RAG system facilitates the use of a knowledge base to augment context to large language models (LLMs). A typical design pattern includes a RAG server that accepts prompt queries, consults a vector database for nearest context vectors, and then redirects the query with the appended context to an…

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Kubernetes underpins a large portion of all AI workloads in production. Yet, maintaining GPU nodes and ensuring that applications are running, training jobs are...

Kubernetes underpins a large portion of all AI workloads in production. Yet, maintaining GPU nodes and ensuring that applications are running, training jobs are progressing, and traffic is served across Kubernetes clusters is easier said than done. NVSentinel is designed to help with these challenges. An open source system for Kubernetes AI clusters, NVSentinel continuously monitors GPU…

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Over the past few years, AI inference has evolved from single-model, single-pod deployments into complex, multicomponent systems. A model deployment may now...

Over the past few years, AI inference has evolved from single-model, single-pod deployments into complex, multicomponent systems. A model deployment may now consist of several distinct components—prefill, decode, vision encoders, key value (KV) routers, and more. In addition, entire agentic pipelines are emerging, where multiple such model instances collaborate to perform reasoning, retrieval…

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If a data center is moving in next door, you probably live in the United States. More than half of all upcoming global data centers—as indicated by land purchased for data centers not yet announced, those under construction, and those whose plans are public—will be developed in the United States.

And these figures are likely underselling the near-term data-center dominance of the United States. Power usage varies widely among data centers, depending on land availability and whether the facility will provide xhttps://spectrum.ieee.org/data-center-liquid-cooling or mixed-use services, says Tom Wilson, who studies energy systems at the Electric Power Research Institute. Because of these factors, “data centers in the U.S. are much larger on average than data centers in other countries,” he says.

Wilson adds that the dataset you see here—which comes from the analysis firm Data Center Map—may undercount new Chinese data centers because they are often not announced publicly. Chinese data-center plans are “just not in the repository of information used to collect data on other parts of the world,” he says. If information about China were up-to-date, he would still expect to see “the U.S. ahead, China somewhat behind, and then the rest of the world trailing.”

One thing that worries Wilson is whether the U.S. power grid can meet the rising energy demands of these data centers. “We’ve had flat demand for basically two decades, and now we want to grow. It’s a big system to grow,” he notes.

He thinks the best solution is asking data centers to be more flexible in their power use, maybe by scheduling complex computation for off-peak times or maintaining on-site batteries, removing part of the burden from the power grid. Whether such measures will be enough to keep up with demand remains an open question.

Ocean services provider DeepOcean has completed trenching and survey operations at a US offshore […]

Italy origin cargoes drop by 86% on year: ITC High feedstock OX prices, low downstream demand Europe sees negative margins US imports of phthalic anhydride from Italy through September dropped by 86%

Duos Technologies Group, Inc. (Nasdaq: DUOT), a leader in intelligent technologies and digital infrastructure, has announced financial results for the third quarter ended September 30, 2025, reporting record revenue and positive adjusted EBITDA. The company remains on track to meet full-year guidance of $28 to $30 million, driven by growth in edge computing and energy services.

For the third quarter, Duos recorded $6.88 million in revenue, including $6.59 million in services, of which $5.15 million was related to its Asset Management Agreement (AMA) with New APR Energy. Total nine-month revenue reached $17.6 million, the highest in company history and reflecting more than 20% sequential growth.

During the quarter, Duos raised over $50 million to fund growth in the data center market and retired all debt. The company also reported improved gross margins and a reduced net operating loss. Key operational milestones included subsidiary Duos Edge AI’s new partnership with FiberLight to expand high-speed connectivity across underserved U.S. markets and the deployment of its sixth Edge Data Center, with nine additional sites planned for Q4, including the first out-of-state location in Illinois.

“I am very pleased with the continuous improvement in Duos’ results this year,” said Chuck Ferry, CEO of Duos Technologies. “Having embarked on the strategic shift to becoming a data center provider for the rapidly growing market for edge computing, we are well positioned to capture market share for products and services related to this important industry. I also welcome our new senior management and latest addition to our Board to assist in realizing the potential in 2026 and beyond.”

Duos also appointed Doug Recker as President and Corporate Officer, as well as Brian J. James to its Board of Directors, strengthening leadership and strategic alignment. The company was awarded U.S. Patent No. 12,404,690 B1 for its Entryway for a Modular Data Center and joined the Nomad Futurist Foundation as an Inspiration Sponsor, reinforcing its commitment to education and workforce development across the digital infrastructure ecosystem.

With approximately $25.8 million in backlog and near-term awards, Duos is reaffirming its 2025 revenue outlook and continues to focus on profitability, operational stability, and expansion within the edge and energy sectors.

The company’s management team hosted its third quarter 2025 earnings call on November 12, 2025, providing additional insight into results and strategy. A replay of the call is available in the investor section of the Duos Technologies website.

To learn more about Duos Technologies Group, Inc., visit www.duostech.com.

The post Duos Technologies Achieves Positive EBITDA with 112% Quarterly Revenue Growth appeared first on Data Center POST.

In Short : Reliance Industries has merged 16 step-down subsidiaries into Reliance New Energy, reinforcing its strategic focus on clean energy and new-age technologies. The consolidation aims to simplify the corporate structure, improve operational efficiency, optimise resource deployment, and strengthen execution across renewable energy, energy storage, and green technology initiatives within the Reliance ecosystem.

In Detail : Reliance Industries has approved the merger of 16 step-down subsidiaries into Reliance New Energy, marking a significant organisational move to strengthen its clean energy and sustainability-focused businesses. The consolidation reflects the company’s intent to build a more agile and integrated structure to support its long-term energy transition strategy.

The step-down subsidiaries being merged were engaged in various activities linked to renewable energy, energy storage, advanced materials, and emerging clean technologies. Bringing these entities under a single umbrella is expected to enhance coordination, reduce administrative complexity, and enable faster decision-making across projects and investments.

Reliance New Energy has been positioned as the group’s primary vehicle for driving growth in the clean energy domain. By consolidating multiple subsidiaries into this entity, Reliance aims to create a unified platform that can efficiently manage large-scale investments, technology development, and project execution in a rapidly evolving sector.

Operational efficiency is a key driver behind the merger. A streamlined corporate structure allows for better capital allocation, reduced compliance burden, and improved utilisation of shared resources such as talent, infrastructure, and intellectual property. This is particularly important in capital-intensive segments like renewable energy and advanced manufacturing.

The consolidation is also expected to strengthen governance and financial transparency. With fewer entities and clearer reporting lines, Reliance New Energy can present a more cohesive financial and operational profile, which supports long-term planning and enhances confidence among investors and stakeholders.

From a strategic perspective, the merger aligns with Reliance Industries’ broader vision of becoming a global leader in clean energy and decarbonisation solutions. The company has committed significant investments toward renewable power, battery storage, green hydrogen, and related technologies as part of its transition roadmap.

The integrated structure is likely to accelerate project execution timelines by improving coordination across development, engineering, procurement, and deployment activities. Faster execution is critical as competition intensifies and demand for clean energy solutions continues to grow in India and globally.

For employees and partners, the merger is expected to create clearer roles, unified processes, and better alignment with the group’s clean energy objectives. A consolidated organisation can also attract specialised talent and foster innovation by bringing diverse capabilities together under a single leadership framework.

Overall, the merger of 16 step-down subsidiaries into Reliance New Energy represents a strategic step toward building scale, efficiency, and focus in Reliance Industries’ clean energy journey. By simplifying its structure and strengthening execution capabilities, the company is positioning itself to play a central role in shaping India’s future energy landscape.

The U.S. Department of Energy moved to de-obligate or revise billions in financing for clean energy projects while prioritizing natural gas and nuclear power.

From pv magazine USA

The U.S. Department of Energy (DOE) announced it will restructure or eliminate $83.6 billion in loans and conditional commitments, shifting focus away from renewable energy sources like solar and wind in favor of baseload power like gas and nuclear.

Along with this action the DOE has renamed the loaning organization, the Loans Programs Office to the Office of Energy Dominance Financing (EDF).

The action follows a review of the Biden administrations $104 billion principal loan obligations, “including approximately $85 billion rushed out the door in the final months after Election Day,” said a press statement from DOE.

The department stated that nearly $30 billion has been or is being de-obligated, while an additional $53.6 billion is undergoing revision.

According to the department, approximately $9.5 billion in subsidies for wind and solar projects were eliminated. These funds are being redirected toward baseload energy sources, including natural gas, nuclear power, and coal-fired facilities. The agency said that the changes are intended to prioritize grid reliability and lower electricity costs for consumers.

The department maintains $289 billion in available loan authority. It identified six sectors it will fund, notably excluding renewable energy and battery energy storage.

The EDF is set to oversee the allocation of funds across a diverse range of energy and industrial sectors. These include nuclear power, fossil fuels such as coal, oil, gas, and other hydrocarbons, as well as critical materials and minerals essential for technological development.

Secretary of Energy Chris Wright said the office will now focus on supporting the private sector through energy projects that provide consistent power rather than intermittent generation.

Recent analysis finds that solar and battery energy storage costs have fallen enough where cost-competitive “anytime electricity” is available around-the-clock.

The department has already begun closing loans under the new priorities, including a deal to restart the Three Mile Island nuclear facility. A coal-powered fertilizer plant in Indiana also received support.

Meanwhile, many solar and storage developers that had received conditional commitments under the previous administration must now navigate a revised landscape where federal backing is no longer guaranteed for renewable technologies.

The department noted that $85 billion of the original portfolio was finalized in the final months of the Biden administration, a timeline the current leadership described as “rushed.”

The move signals a departure from federal support for the energy transition as previously defined, focusing instead on traditional energy production and nuclear expansion.

A Chinese-Swedish research team has boosted the performance of tin-lead perovskite solar cells by modifying additives and post-treatment processes. The device also demonstrated improved stability, retaining 60% of its initial efficiency after 550 hours at 85 °C under maximum power point conditions.

Researchers from East China Normal University and Sweden’s Linköping University have developed an alternative passivation method for tin-lead (Sn-Pb) perovskite solar cells that improves both efficiency and stability by avoiding the use of tin fluoride (SnF₂). The approach combines a lead fluoride (PbF₂) post-treatment with lead powder in the precursor.

“We identified and elucidated a previously unrecognized factor that drives the photo-thermal instability of Sn-Pb perovskite solar cells,” Wenxiao Zhang, co-first and co-corresponding author of the research told pv magazine, explaining that the study established that SnF₂ “parasitic reactions” trigger perovskite decomposition and degradation of functional device layers.

“Whereas the markedly lower stability of Sn-Pb perovskites relative to their Pb-only counterparts is usually ascribed solely to the oxidation of stannous ion (Sn²⁺), antioxidant strategies alone have failed to deliver a substantial improvement in photothermal durability. This work pinpoints the underlying cause and proposes an effective alternative,” said Zhang.

“To avoid the adverse effects of SnF₂ on stability and hole transport, we replace SnF₂ additive with lead powders, known for its antioxidant and crystallization-regulating effects as reported in our previous work, to remove Sn⁴⁺ from the precursor, combined with a PbF₂ post-treatment to passivate surface defects,” he went on to say.

The Sn-Pb test cells measured 0.09 cm2. The basic stack was as follows: indium tin oxide (ITO) substrate, P3CT-Cs layer, perovskite, lead fluoride, electron transport layer (ETL) based on buckminster fullerene (C60), bathocuproine (BCP) and insulating lithium fluoride (LiF), and copper (Cu) contacts.

The strategy enabled the efficiency of the SnF₂-free tin lead perovskite solar cell to reach 24.07% compared to 16.43% of the control device. As for photothermal stability, the cells without the SnF₂ additive retained 60% of their initial efficiency after continuous operation at 85 C under maximum power point (MPP) conditions for 550 h.

The negative effect of SnF₂e was evident in testing. For example, the researchers noted that both Cu and ITO electrodes had reactions “even at room temperature or without light soaking,” indicating the “corrodibility of migrated ion and reaction products.”

The fabrication requires precision but the process is straightforward, according to the scientists. “Tin-containing perovskites require a carefully controlled atmosphere with extremely low oxygen levels, and the film-forming temperature along with associated processing parameters must be finely tuned while using high-purity SnI₂. Even so, device fabrication remains straightforward,” said Zhang.

The scientists concluded that the work has implications for overcoming the stability bottlenecks of Sn-Pb single-junction and all-perovskite tandem solar cells. Their work is described in “A tin fluoride-free, efficient and durable tin-lead perovskite solar cell,” published by nature communications.

“We are working on the simultaneous efficiency and stability improvements of all-perovskite tandem solar cells and tin-lead perovskite solar cells,” said Zhang, referring to the future direction of the team's work.

Saudi Arabia and the UAE have emerged as two of the world’s most prominent energy storage markets, with mega-scale projects announced and moved forward at a staggering pace over the last two years. But what does the next phase look like?

Covestro and startup Rondo Energy have broken ground on a 100MWh TES system at Covestro's Brunsbüttel chemical site in Germany.