Cooling

Vertiv to supply cooling solutions for EcoDataCenter plant

Vertiv, a global provider of critical digital infrastructure and continuity solutions, has been awarded a contract by Swedish data centre company, EcoDataCenter, to supply high-efficiency chilled water cooling solutions for EcoDataCenter’s state-of-the-art plants being built in Falun, Sweden. EcoDataCenter, founded in 2014, has been very successful with its state-of-the-art data centres and is continuing to grow and expand its operations to support rising demand for AI and high performance computing (HPC). EcoDataCenter’s commitment to sustainability is perfectly aligned with Vertiv's focus on efficient infrastructure and principles of environmental stewardship. It was a natural choice for the company to extend their relationship with Vertiv by naming it as a solutions provider on this new project. EcoDataCenter operates multiple data centre facilities in four Swedish locations. The two new data centres in Falun are planned to be commissioned at the beginning of 2025. The project includes an expected installation of 96 Vertiv Liebert PCW chilled water cooling units for a total capacity of around 12 MW. These floor-mounted systems feature optimised coils and an aerodynamic design of the internal components, including patented elements, allowing a reduction of energy consumption. Moreover, the units are customised according to customer specifications, further enabling enhanced cooling efficiency and effective waste heat reuse. "We selected Vertiv’s cooling systems due to their energy-efficient, reliable solutions, exceptional expertise and service. Vertiv is quick to translate technological advances into products, and its innovations integrate seamlessly with our deployments" says Mikael Svanfeldt, CTO at EcoDataCenter. "This framework agreement with EcoDataCenter is a feather in the cap for Vertiv in the Swedish market. EcoDataCenter and Vertiv have a history of working together to apply innovative, efficient, and reliable solutions to support EcoDataCenter's sustainability goals. This knowledge sharing helps both companies to anticipate future needs," adds Victor Elm, Strategic Segment and Partners Director, Colocation and Hyperscale for Northern Europe at Vertiv. The companies plan to continue their technology partnership to support AI and HPC applications. For more from Vertiv, click here.

STULZ launches new coolant management and distribution unit

STULZ, a global mission critical air conditioning specialist, has announced the launch of CyberCool CMU – an innovative new coolant management and distribution unit (CDU) that is designed to maximise heat exchange efficiency in liquid cooling solutions. Launched at Data Centre World Frankfurt 2024 earlier this week, CyberCool CMU seeks to offer industry-leading levels of energy efficiency, flexibility and reliability within a small footprint, while providing precise control over an entire liquid cooling system. "The rapid advancement of high-performance computing, artificial intelligence (AI) and machine learning (ML) has led to a massive increase in data centre rack and server power density," explains Joerg Desler, Global Director Technology at STULZ. "Central processing units (CPUs) and graphics processing units (GPUs) are expected to exceed 1000W per processor or higher in the next few years. These processing requirements are placing tremendous demands on data centre cooling systems, and where liquid cooling was once an option, it is rapidly becoming essential." CyberCool CMU has been developed to maximise heat exchange by isolating the facilities water system (FWS) and technology cooling system (TCS) elements of a liquid cooling system. This significantly reduces the risk of cross-contamination and leaks, thereby enhancing overall reliability. It also provides precise control over each side of the cooling system, enabling better management of coolant flow rates, temperatures and pressure, which improves overall system efficiency. As it is precision engineered, CyberCool CMU accurately controls the supply temperature and flow rate of the coolant with minimal power consumption. Comprising premium grade water pumps, plate heat exchangers, water valves and controllers, CyberCool CMU provides a reliable and efficient liquid coolant supply. High liquid coolant quality is ensured through sanitary grade stainless-steel pipelines, and to enhance system compatibility the unit offers a range of structural, electrical and control options including the flexibility to accommodate customer specific configurations and power loads. Alongside a series of standard unit configurations and capacities, this new product line from STULZ can offer a high level of customisation, adapting to specific needs in the DLC market. Data centres are under increasing pressure to become more sustainable, so CyberCool CMU is designed to seamlessly integrate with ancillary STULZ A/C products, providing an efficient system solution throughout; as well as supporting ASHRAE’s guidelines for water cooling specifications. To achieve the highest standards of reliability and usability, CyberCool CMU’s software and hardware are perfectly harmonised with any liquid cooling solution, while its intuitive touchscreen display provides clear menu navigation. Multiple variable speed pumps provide adaptation to required liquid flow rates alongside energy efficiency gains as well as build in redundancy. Joerg concludes, "The transition to liquid cooling in data centres is well underway and we are confident that CyberCool CMU can meet the heat transfer demands of these systems sustainably, efficiently, reliably and flexibly." For more from STULZ, click here.

Sonic Edge partners with Iceotope to launch dedicated AI Pods

Sonic Edge, a provider of modular data centres (MDCs), is partnering with Iceotope, a global precision liquid cooling expert, to launch new Iceotope AI Pods. Sonic Edge provides a range of Edge and HPC (High-Performance Computing)-ready MDCs that enable organisations to run their operations anywhere in the world. With the significant increase in the compute densities required for AI applications, Sonic Edge recognised the opportunity to design and build containerised MDCs, or Pods, that are AI application-ready, incorporating advanced precision liquid cooling technology from Iceotope. The resulting Iceotope AI Pods are multi-tenant MDCs with a capacity of up to 450kW, a 12x4m footprint, and can be deployed either on-premise, or in remote locations. They are designed to include everything you would find in a standard data centre facility, such as UPS backup, fire suppression, and monitoring and evaluation. Stuart Priest, Founder and CEO, Sonic Edge, explains, “There are many organisations, particularly start-ups, that can’t afford to wait for colocation space to become available for their operations. They are looking to get their own high-performance, AI-ready MDCs up and running fast. We’re excited about our collaboration with Iceotope because we can now provide cloud or edge providers with multi-tenant Pods that have Iceotope’s advanced precision liquid cooling built in.” David Craig, CEO, Iceotope, adds, “We’re seeing an unprecedented surge in data generation and the evolving role of data centres as interactive AI powerhouses. To meet this demand – and with scalability, serviceability, and sustainability at the forefront of industry demands – our precision liquid cooling is pivotal to providers such as Sonic Edge. We are delighted to be partnering with them to have our technology incorporated into fast and easy-to-deploy Pods to facilitate high-performance AI.” Rapid implementation and cost-effectiveness are major benefits of the AI Pods, according to Stuart Priest. He notes, “To build and get a data centre up and running can take five or six years, whereas with an AI Pod it takes just 16 weeks from order to delivery. Everything needed to make it operational is there from day one, and we offer ‘tier three ready’ as standard. We also ensure that the Iceotope AI Pods adhere to all relevant industry compliance standards. The highest levels of security can also be incorporated, ranging from SR1 to SR8.” Flexibility is at the heart of the Iceotope AI Pods. Stuart continues, “Our Pods are meticulously designed to adapt seamlessly to customers’ growing requirements. We believe in building a solution to fit the project, rather than trying to fit the project into the solution. With Iceotope AI Pods, you can literally ‘pay as you grow’.” For more from Iceotope, click here.

Carrier launches new chiller range for data centres

Carrier has launched a new range of high performance chillers for data centres, designed to minimise energy use and carbon emissions while cutting running costs for operators. Available in capacities from 400kW to 2100kW, the Eurovent and AHRI certified units are based on proven Carrier screw compressors, ensuring efficient, reliable operation and long working life. Carrier is a part of Carrier Global Corporation, global leader in intelligent climate and energy solutions. The new AquaForce 30XF air-cooled screw chillers are equipped with an integrated hydronic free-cooling system and variable-speed inverter drives, which combine to deliver energy savings of up to 50% during total free-cooling operation. The chillers, available on ultra-low global warming potential refrigerant HFO R-1234ze(E), claim to offer excellent resilience with an ultra-fast recovery system that, in the event of a power cut, can resume 100% of cooling output within two minutes of power being restored. This ensures cooling is maintained for critical servers and data protected. The chiller can operate in a wide range of ambient conditions, from -20 to 55°C, making it suitable for use in cold, temperate and hot climates, while Carrier's smart monitoring system ensures optimum efficiency and performance. Variable-speed fans further increase energy efficiency and support quiet operation at part-load. To further enhance chiller performance, the units are equipped with a dual power supply (400/230V or 400/400V) with electronic harmonic filter. The filter automatically monitors and maintains the quality of the power supply, preventing damage to the chiller's electrical components and improving overall system efficiency. The hydronic free-cooling system is available in a glycol-free option for applications where glycol cannot be used. This operates with glycol in the outdoor unit only, and enables the size of the glycol-free indoor units to be reduced by up to 15%. "The new AquaForce 30XF has been designed specifically to meet the strict environmental, efficiency and reliability requirements of data centre applications, and ensure servers keep running cool around the clock," says Raffaele D'Alvise, Carrier HVAC Marketing and Communication Director. "The chiller helps data centre operators achieve their budget and sustainability goals by reducing energy consumption and carbon emissions, while providing excellent resilience and extended working life." The AquaForce 30XF is part of Carrier's comprehensive range of cooling solutions for data centres, which includes AquaSnap 30RBP air-cooled scroll chillers, AquaEdge 19DV water-cooled centrifugal chiller, AquaForce 61XWH-ZE water-cooled heat-pump, plus computer room air conditioners, air handlers and fan-walls, all supported by Carrier BluEdge lifecycle and service and support to maintain optimum performance.

LiquidStack opens new facility to scale liquid cooling production

LiquidStack, provider of liquid cooling solutions for data centres, has announced its new US manufacturing site and headquarters located in Carrollton, Texas. The new facility is a major milestone in its mission to deliver high performance, cost-effective and reliable liquid cooling solutions for high performance data centre and edge computing applications. With a significant uptick in liquid cooling demand associated with scaling generative AI, the new facility enables it to respond to customers' needs in an agile fashion, while maintaining the standards and services the company is known for. LiquidStack’s full range of liquid cooling solutions are being manufactured on site, including direct-to-chip Coolant Distribution Units (CDUs), single phase and two phase immersion cooling solutions and the company’s MacroModular and MicroModular prefabricated data centres. The site will also host a service training and demonstration centre for customers and its global network of service engineers and partners. “We are seeing incredibly high demand for liquid cooling globally as a result of the introduction of ultra-high TDP chips that are driving the scale and buildout of generative AI. Our investment in this new facility allows us to serve the rapidly growing market while creating new, high-skilled jobs right here in Carrollton,” says Joe Capes, CEO, LiquidStack. The new manufacturing facility and headquarters occupies over 20,000sqft. It has also been in operation since December 2023, and a formal ribbon cutting ceremony will be held on March 22, 2024. Expected attendees include members of the city council and the Metrocrest chamber of commerce, as well as LiquidStack customers and partners.

Daikin boosts data centre cooling solutions

Daikin has enhanced its product and services offer for data centre cooling in response to soaring demand from the sector and to keep pace with rapid predicted growth. The consultancy McKinsey & Company forecast that the global data centre market would grow by at least 10% a year throughout the rest of this decade, with a total of $49bn likely to be spent on construction and fitting out of new facilities. This rapid expansion is being driven by the growth in AI applications and cloud computing, which in turn means healthy demand for cooling solutions tailored to the specific needs of this energy intensive area. Minimising energy and water useAs well as keeping data centres cool to protect their sensitive equipment, operators are under increasing pressure to minimise energy and water use – with sustainability a growing preoccupation. This has been reflected in increased demand for the company’s free cooling solutions, which take advantage of low ambient air temperatures to reduce the run time of chillers, in turn, cutting energy use and extending the operating life of equipment – a key consideration for reducing ‘whole life carbon’. Daikin offers different types of free cooling, including glycol free systems, to meet the needs of critical applications like data centres. It also uses sophisticated plant management systems supported by AI to keep chillers operating close to their optimal performance level and balances total capacity with actual load. This improves energy savings by as much as 20%, compared with traditional chiller sequencing control by BMS. It has also extended other aspects of its products and services to meet evolving end user requirements and now offers two ranges of air-cooled chillers specifically for data centres. Precise modulation of chiller loadsIts chiller range includes screw compressor units equipped with variable frequency drives (VFD), which are designed and manufactured in-house and mounted onto the compressor for better reliability and efficiency. This allows precise modulation of cooling loads with capacities up to 2150kW and scroll compressor chillers with capacities up to 1344kW, which are ideally suited to a range of applications from refurbishment projects to major new developments. Daikin chillers deliver up to +30°C supply water temperature, and can operate in a wide band of outside temperature conditions between –35°C and +55°C. This flexibility is particularly valued by large data centre operators juggling with ever denser concentrations of servers and ancillary equipment. It also offers the Pro-W, which is a high-efficiency computer room air handling (CRAH) solutions, manufactured in both the UK and Italy. The range offers cooling capacities from 200kW to 700kW, making them ideal for even the very largest data centres. These capacities are achieved using just four core unit sizes, which means the company can use a dedicated range of standardised components, including built-in EC fans and cooling coils, to guarantee manufactured quality and short production lead times. Despite their large cooling capacities, the Daikin products are compact, which allows them to be fitted in restricted areas. The company also offers a range of control options specifically tailored for data centres to ensure the chiller plant delivers 24/7 cooling operating in the right mode by adjusting continually to real time conditions. The chillers also come with a choice of refrigerant to further meet environmental concerns. Comprehensive after sales supportDaikin provides comprehensive after-sales support including access to its remote monitoring ‘Daikin On Site’ (DOS) service so any performance or safety risks can be flagged up to keep the system running as intended. DOS captures live operational data from the data centre and combines it with statistical predictions using trend analysis. This allows the service team to develop a preventative maintenance schedule to ensure the efficiency and reliability of the critical equipment, avoiding costly downtime and major repairs. Visit Daikin on Stand D530 at Date Centre World, Excel, London on March 6 and 7 to see all the specialised cooling solutions on offer.

Playing it cool: A story of not giving up

This case study looks at the success that Danfoss Power Solutions had in helping iXora in its development of a liquid cooling system, specific to the requirements of typical data centre operations. The Caribbean island of Curaçao enjoys a tropical climate, which may be pleasant for many people, but can be disastrous for electronics. Heat and long hours of direct sunlight, combined with tropical rains and salty, moist air, can very quickly corrode electrical equipment and ruin components. The founders of iXora were well aware of these challenges when they set about developing their high-performance amplifier system. The solution needed to not only withstand the challenging Curaçao climate, but also offer users easy transport from event to event. Air cooling requires fans and other moving parts that are subject to wear and tear, so iXora looked at alternative solutions. The company developed a closed-circuit immersion cooling system, which provided the necessary cooling at an extremely high efficiency. Because the system was closed, it was also easy to set up, take down, and transport, and it effectively shielded electronic components from ambient conditions. Everything was going well for iXora, until COVID-19 struck in 2020; it wiped out the live event scene almost overnight. Company founders, Vincent Beek and Vincent Houwert, decided to use the opportunity to relocate to the Netherlands to seek further investment and finesse the design of the amplifier system. Immersion cooling: An introduction In recent years, digital technologies such as cryptocurrency and artificial intelligence have emerged from relative obscurity to mainstream, producing vast amounts of data. As a result, data centres have sought to increase capacity while simultaneously improving efficiency. Air cooling had long been the norm for data centre cooling, but many data centre facilities have transitioned to or are exploring liquid cooling as a more efficient and cost-effective alternative to air cooling. There are two main approaches to liquid cooling: direct liquid cooling and immersion cooling. Direct liquid cooling involves circulating coolants to specific components. While more efficient than air cooling, it is often not suitable for high-intensity processing operations. Immersion cooling typically involves submerging electronics in a bath of non-conductive liquid. It provides far greater efficiency and cooling density compared to air cooling and requires no fans or other active cooling components. However, designs are often complex, custom, and expensive, requiring large baths in which to submerge server racks entirely. Pivoting to a new model iXora realised that its closed system could provide the perfect solution for data centres. It could substantially improve the efficiency and capacity of server hardware without the need for significant infrastructure redesign, and at a much lower cost compared to the immersion cooling systems available at the time. The company, now joined by data centre expert, Job Witteman, began designing a prototype closed immersion cooling system for the data centre market, based on its existing amplifier cooling solution. Rather than the traditional horizontal rack system, iXora instead sought to develop a chassis containing vertical cassettes, in which dielectric oil would cool the electronic components. This required a vastly more sophisticated design compared to iXora’s previous solutions for audio equipment, and a deep understanding of the specific requirements of typical data centre operations. Furthermore, because the prototype would be the first of its kind, it also required the design and development of new systems and components unique to the application. Prototype challenges One example of this was the new system’s heat exchanger, required to transfer heat away from each cassette. The design required two couplings per cassette to connect them both to the chassis, and to the facility’s wider cooling equipment. Achieving a low pressure drop in these couplings was vital, as each small pressure drop could cause disruptions in the cooling performance. Cassettes also required easy connection and disconnection for maintenance, with zero leakage, as any liquid coming into contact with data centre equipment could pose a serious risk to operations. iXora approached Danfoss for help in the development of custom couplings for its system. As well as zero leakage, these also needed to provide precision alignment, a low connect force, and a compact size. Drawing on its extensive experience in coupling technology, Danfoss product engineers were able to calculate exactly what was required based on the flow rate, maximum coupling size, pressure requirements, and heat exchange rate, alongside a range of other factors specific to data centre cooling applications. Based on these calculations, Danfoss concluded that aluminum dry break quick-disconnect couplings would be the most suitable solution. These were then manufactured to specification by Danfoss. Success in partnership The prototype was a success, with the Danfoss couplings outperforming all other couplings tested. iXora’s Head of Operations and Sales, Vincent Beek, explains, “The Danfoss couplings achieved full alignment, easy connection and disconnection and, crucially, zero leakage. This is vital for maintenance. With a conventional full immersion system, it can be tricky getting servers out of the liquid bath. Ours is effectively plug and play, so you can just disconnect it and carry it straight to the workshop. “We’re now onto the field-testing stage, with a global pilot to follow this year, and then next year we’ll be scaling up to mass production. None of this would have been possible without Danfoss. As a start-up, it can be difficult to get the attention of larger companies, particularly when it comes to help with R&D. They saw our solution, immediately bought into it, and we’ve benefited greatly from their expertise.” Jeroen Veraart, Senior Sales Development Manager, Danfoss Power Solutions, says, “This was a true partnership. iXora benefited from us for sure, but we’ve learned a lot from them as well. As a result of working with them we’ve identified new ways in which we can improve and refine our products further. “iXora were a dream to work with,” Jeroen continues. “With a start-up there’s always an element of risk, but they were enthusiastic, willing to learn, and always coming up with creative ideas and solutions. At the end of it they’ve got a really impressive system. Immersion cooling is clearly the future for data centres, and in just a few years, I expect that market will grow considerably. This has been a really rewarding partnership for both parties, and I look forward to seeing it continue to flourish.”

Iceotope achieves chip cooling industry milestone at 1000W

Iceotope has achieved chip-level cooling up to 1000W and beyond. The published results in, 'Achieving chip cooling at 1000W and beyond with single phase precision liquid cooling', validate how single-phase liquid cooling can achieve 1000W cooling and the thermal performance of precision liquid cooling. The data centre industry is looking to liquid cooling as the solution for solving challenges such as the compute densities required for AI, the overall rising thermal design power of IT equipment, and the need for sustainable cooling solutions. Data centre operators must know they are future-proofing their infrastructure investment for 1000W to 1500W to 2000W CPUs and GPUs in the coming years. The testing conducted by Iceotope Labs has demonstrated how precision liquid cooling technology is expected to meet these challenges.  Key findings from the testing include:  At a flow rate of 7l/min, Iceotope's copper-pinned KUL SINK achieved a thermal resistance of 0.039K/W when a 1000W heat load was applied to Intel’s Airport Cove thermal test vehicle (TTV), a thermal emulator for the 4th Gen Intel Xeon Scalable processors. This translates to an 11.4% improvement in thermal resistance, compared to a like-for-like test of a tank immersion product containing a forced-flow heatsink.  Thermal resistance remains almost constant at a given flow rate as the power was increased from 250W to 1000W.   The results demonstrate high confidence that testing at 1500W will yield the same consistency based on the testing of the thermal resistance from 250W to 1000W.   “Iceotope precision liquid cooling technology has achieved an important industry milestone by demonstrating enhanced thermal performance capability compared to other competing liquid cooling technologies,” says Neil Edmunds, Vice President of Product Management at Iceotope.  “We are confident that future testing of our standard solution at elevated power levels will demonstrate further inherent cooling capability. Iceotope is also continuing to develop new solutions which enable even higher roadmap power levels to be attained in a safe, sustainable and scalable way.”  “The ability to cool 1000W silicon is a key milestone in building the runway for silicon with higher thermal design power and enabling efficient data centre and Edge cluster solutions of the future,” says Mohan J Kumar, Intel Fellow.  Read more latest news from Iceotope here.

Concentric AB wins business nomination in liquid cooling market

Concentric AB has announced that it has received its first new multi-year business nomination from a leading global OEM customer in the data centre liquid cooling market. The value of this new business is 63MSEK per year, and the start of production is planned in the first quarter of 2025. This strategic customer selected Concentric’s seal-less e-pump based on its innovative design, proven endurance and dependability for its new data centre liquid cooling application. The global data centre market is expected to grow at a CAGR of 10-13% over the next six years. There is a clear trend towards liquid cooling in these applications, and it is anticipated that liquid cooling in data centres will grow at a faster rate of 24.4% during the same period, according to a report by MarketsAndMarkets Research. AI has redefined the way chips are designed and utilised in the semiconductor industry, leading to optimised energy efficiency and performance for larger datasets. As performance requirements increase, so does the need for cooling. Liquid cooling is more effective than air cooling in handling a data centre's growing densities, as these systems directly dissipate heat from the battery cells through the coolant, allowing customers to achieve precise temperature control, unaffected by external conditions. “This first business nomination from a global market leading OEM for data centre cooling systems is another testimonial of the successful execution of our growth plans into new markets. As with our previous wins in energy storage applications, data centres are another new market where our existing products, which are already proven to manage similar liquid cooling challenges, can fulfil the customer’s needs. This new business serves as a significant gateway for Concentric into this highly attractive and fast-growing market and I am extremely proud of our global sales and engineering team, who has developed this new solution with the customer, based on an existing Concentric product,” says Martin Kunz, President and CEO Concentric AB.

Time to prepare data centre chillers for cool weather corrosion!

The approach of fall and winter means cooler temperatures are on their way. For data centres in northern climates, that also means some chiller systems used to cool excess server heat can be turned off to save energy. Cortec has encouraged maintenance personnel to follow seasonal layup best practices in order not to let corrosion costs swallow up those energy savings. Corrosion problems during chiller shutdown Seasonal shutdown of data centre chillers makes them vulnerable to internal corrosion for two key reasons. Firstly, the normal water treatment chemicals are no longer running through the system. Secondly, the empty system may have residual moisture that incites corrosion throughout the pipes and bundles. Resulting corrosion problems may not show up until later, such as when the chiller system is turned back on and corrosion products plug the system or leaks appear. Even if higher Iron content in the water is the only sign that corrosion has occurred, the underlying metal loss can eventually lead to shortened service life for the chiller. Seasonal layup made easy The Cooling Tower Frog is an excellent low-labour method of slowing down or even eliminating offline corrosion. All that is needed is to place these water-soluble pouches in the chiller’s drained water box, slit open the water-soluble packaging, and shut all chiller openings. During the layup period, Vapor phase corrosion inhibitors will diffuse out of the Cooling Tower Frog and form a protective molecular layer on metal surfaces inside the chiller. At start-up, the chiller can simply be filled and started as normal without removing the Cooling Tower Frog, which will simply dissolve in the makeup water. Offset corrosion and energy costs Cooler winter temperatures offer a great break to data centres facing high energy costs from chillers. To make the most of those energy savings, data centre managers should also do their best to offset potential corrosion problems and costs simply by taking advantage of the Cooling Tower Frog. Contact Cortec to learn more about this easy seasonal chiller layup solution.