The CoolCenter Immersion system utilises immersion cooling technology. (Image credit: Vertiv)

Vertiv, a global provider of critical digital infrastructure and continuity solutions, has unveiled the Vertiv CoolCenter Immersion cooling system, further expanding its worldwide liquid cooling portfolio

The new system is designed to support artificial intelligence (AI) and high-performance computing (HPC) environments that demand advanced heat management. It is now available across Europe, the Middle East, and Africa (EMEA).

The CoolCenter Immersion system utilises immersion cooling technology, where entire servers are submerged in a dielectric liquid. This approach ensures efficient and even heat removal across all components, especially in high-power applications where conventional air cooling is no longer sufficient. As a complete liquid-cooling solution, the system provides reliable heat management for dense computing loads ranging from 25 kW to 240 kW per unit.

“Immersion cooling is playing an increasingly important role as AI and HPC deployments push thermal limits far beyond what conventional systems can handle,” said Sam Bainborough, EMEA vice-president of thermal business at Vertiv. “With the Vertiv CoolCenter Immersion, we’re applying decades of liquid-cooling expertise to deliver fully engineered systems that handle extreme heat densities safely and efficiently, giving operators a practical path to scale AI infrastructure without compromising reliability or serviceability.”

The Vertiv CoolCenter Immersion comes in various configurations, including self-contained and multi-tank setups, offering cooling capacities from 25 kW to 240 kW. Each system integrates an internal or external tank, coolant distribution unit (CDU), temperature sensors, variable-speed pumps, and fluid piping to ensure precise temperature control and consistent performance.

Built for dependability, the system features dual power supplies and redundant pumps for continuous operation. Integrated monitoring sensors, a 9-inch touchscreen, and building management system (BMS) connectivity enhance operational visibility and ease of use. Additionally, its design allows for heat reuse, supporting energy-efficient facility management and aligning with sustainability objectives.

Vertiv’s Liquid Cooling Services deliver end-to-end expertise, encompassing design, installation, maintenance, training, and lifecycle optimisation. The portfolio covers rear-door heat exchangers, direct-to-chip, and immersion cooling technologies, ensuring scalable, efficient, and reliable thermal management solutions tailored for AI, HPC, and other high-density computing environments.

The Cat G3520 Fast Response natural-gas generator set. (Image source: Caterpillar)

Caterpillar has unveiled a 3.1 MW power node for the Cat G3520 Fast Response natural-gas generator set, marking the company’s largest single-unit output with fast-response capability.

The launch enhances Caterpillar’s offering for grid-connected and microgrid projects, supporting both standby and demand response applications.

The Cat G3520 Fast Response generator set is designed for critical operations where continuous power is essential. It offers key advantages, such as diesel-like performance that significantly reduces downtime and enables customers to join utility-sponsored demand response programmes, creating new opportunities for cost savings and revenue generation.

Built for reliability and speed, the generator set can start and accept load from a cold start in under 10 seconds, meeting NFPA 110 standards for dependable emergency power. This rapid performance ensures operational continuity for essential facilities such as hospitals, data centres, emergency service hubs and high-occupancy buildings. It is available for both 50 and 60 Hz applications, offering flexibility for global markets.

Key features

In addition to ensuring power reliability, the Cat G3520 Fast Response also delivers financial advantages. Customers can participate in demand and emergency response programmes that reward users for reducing or shifting power consumption during peak times. These benefits can be further enhanced through integration with Caterpillar’s Distributed Energy Resource Management System (DERMS), such as Cat AMP, which automates programme enrolment and verifies participation in real time to maximise economic returns.

“Our fast-response natural-gas generator sets deliver unique performance, comparable to the start-up and load acceptance of diesel-fueled power solutions,” said Melissa Busen, senior vice president for Caterpillar’s Electric Power Division. “This new 3.1 MW power node supports our customers’ energy resilience in critical power applications.”

The new model expands Caterpillar’s line of natural-gas power solutions with fast-response capabilities, built upon the proven Cat 3500 engine platform, trusted worldwide for its durability and performance. Caterpillar now offers seven 60 Hz standby power nodes ranging from 500 kW to 3.1 MW, all certified by the U.S. Environmental Protection Agency (EPA) for both emergency and non-emergency applications. The company also provides 2.5 MW and 3.1 MW models for 50 Hz operating environments, further strengthening its global portfolio of high-performance power systems.

The panel emphasised the need for small modular reactors

As the urgency to reach net zero emissions by 2050 intensifies, nuclear energy has emerged as a crucial pillar in the global transition away from fossil fuels.

At a panel during ADIPEC 2025 titled "Nuclear Energy Opportunities" in the UAE, experts from regulatory, industry, and technology backgrounds explored how advanced nuclear solutions, particularly Small Modular Reactors (SMRs) and fusion technology—can accelerate progress while addressing perennial challenges.

Christa Victorsson, director general of the UAE’s Federal Authority for Nuclear Regulation (FANR), emphasised early engagement with industry and global collaboration as vital for regulatory efficiency and innovation. “Early engagement is very, very essential,” Victorsson encouraged. “Approach us. Come to us if you have any ideas or needs in this topic...Collaboration is the new currency.”

Veteran energy policy expert Nobuo Tanaka, CEO of Tanaka Global and former executive director of the International Energy Agency, spoke to the complex public perception issues nuclear must overcome, especially after events like Fukushima. Tanaka highlighted, “There are three major conditions for deploying new technologies: safety or risk minimisation, waste management, and addressing proliferation risks.” He stressed that public trust depends on transparent communication about how new reactor designs can make nuclear power safer and more sustainable.

Enhancing energy security

On the frontier of clean energy technology, Hideki Yoshino, CEO of Clean Planet in Japan, introduced the promise of solid-state fusion, which his company is working to commercialise. “Our type of fusion makes abundant scalable energy, with no CO₂ and no radiation,” Yoshino explained. He envisions this technology eventually being deployed everywhere from homes to schools and industries, supporting both decarbonisation and energy security.

Providing a strategic industry perspective, Giovanni Sale, Senior Vice President of Corporate and Business Strategy at MAIRE, outlined the enormous energy demand driven by decarbonisation goals, automation, and the rise of data infrastructure. “SMR in the future, the advanced nuclear reactor, definitely, they need to take a place, because otherwise we cannot match the inspiration that nowadays we can read in any newspaper,” Sale stated. He stressed that SMRs have the flexibility to serve private investors, data centres, and heavy industry alike.

Beyond technical and commercial considerations, the panellists all agreed that robust regulation, international cooperation, and transparent communication with the public are critical to building trust and ensuring proliferation resistance. Victorsson described the UAE’s journey explaining, “Transparency was principle number one. Security, safety, non-proliferation, and long-term sustainability. These are very important principles.”

As the panel concluded, the path forward for nuclear energy became clear: work together globally, communicate benefits and risks openly, and continue developing game-changing technologies like SMRs and fusion. Only then can nuclear fully realise its promise as a safe, scalable tool for a sustainable energy future.

Read more: 

AI and energy leaders unite to drive digital sustainability

ADIPEC 2025 calls for AI-driven energy growth

Leaders from the energy and technology sectors gathered to discuss the critical intersection of AI and energy efficiency

At this year’s ADIPEC in Abu Dhabi, leaders from the energy and technology sectors gathered to discuss the critical intersection of artificial intelligence (AI) and energy efficiency, focusing on how digital innovation can drive sustainability in the global energy landscape.

Kicking off the conversation, Walid Sheta, president, Middle East and Africa for Schneider Electric, spoke candidly about the fundamental role of decarbonisation, stating, “Sustainable development is based on decarbonisation. Decarbonisation requires electrification, and electrification requires digitalisation.”

He emphasised the evolving efficiency of electric transmission but warned that “electrification, just for electrification, doesn’t fly. You need to use the efficiency of it... to do that, you need digitalisation.”

Sheta highlighted AI’s transformative potential with real-world examples. “You can predict the leakages of water pipes in a city by using AI without having sensors and pipes everywhere, and even predicting the failures and preventing them, hence reducing what you are using of power as desalination,” he said.

Growing demand

However, Sheta also sounded a note of caution regarding energy demand, adding “AI is consuming a lot of energy because of the nature of the data centres… today 1% of the energy that is consumed on the planet [is by data centres]. It's planned to reach 3% and 4%...”

Chinmoy Baruah, Founder and CEO of CHIPX Group, underscored the industry’s advancements in efficiency. “We at Chip X are delivering the most energy efficient semiconductor chips for the global industry... We can reduce energy consumption by more than 50% and deliver the same amount of work done running the whole GPUs that NVIDIA and AMD are using currently.”

On the issue of energy access, Esam Al Murawwi, chief projects officer for TAQA Transmission, commented, “We could utilise the AI learning mechanism to support us close that gap. But currently, it’s widening that gap.”

Jens Madrian, acting CEO of ENOWA, shared insights on system-wide AI integration, “You have the kind of standard, no-brainer cases, like detecting water leakage... ROI of these projects are fantastic.” Beyond maintenance, he envisioned a broader future, saying, “We apply AI on a total system basis... our control center doesn’t look like one of these screens you’re looking at here with all those lines... for us, it's almost like a container on site, managed and dispatched instantly.”

As showcased at ADIPEC, the dialogue confirmed the immense challenges and opportunities in aligning AI and energy. Panelists agreed that proactive innovation and cross-sector collaboration will be vital in creating sustainable, efficient, and resilient energy systems for the future.

Read more:

ADIPEC 2025 calls for AI-driven energy growth

SNOC, Siemens partner to explore natural hydrogen

Al Masaood brings Instagrid’s emission-free portable power to UAE