Innovations in Data Center Power and Cooling Solutions

Delta introduces new battery system for data centres

Delta, a global provider of power management and IoT-based smart green solutions, has announced the launch of its latest innovation, the UZR Gen3 Series UPS Li-ion Battery System. Designed specifically for the data centre industry, the lithium-ion battery rack is engineered for unmatched safety, reliability, and total cost of ownership (TCO) reduction. Delta claims that the UZR Gen3 Series represents a significant leap forward in critical power management, while offering seamless integration with existing Delta solutions, including electrical power equipment, cooling systems, and other essential electrical hardware. Commenting on the introduction of the UZR Gen3 Series, James Chen, General Manager of Energy Storage Product Business Development, Delta Electronics, states, “With the introduction of the UZR Gen3 Series, Delta now offers its data centre customers a complete integrated solution that is comprised of its own branded lithium battery, electrical power equipment, cooling systems, UPS and other electrical hardware equipment. The introduction of the UZR Gen3 Series complements these existing solutions. Customers can now choose a Lithium-ion battery that benefits from the engineering knowledge and global support that is associated with the Delta brand.” UZR Gen3 Series users also benefit from:Advanced safety and optimised reliability. The UZR Gen3 has been engineered to provide optimised operational safety. It has finished UL9540A testing with no fire observed nor propagation occurring. No dangerous gasses are emitted under normal operation, and it conforms to a comprehensive array of international safety standards, including UL1973, IEC62619 and IEC60730. They confirm that the UZR Gen3 offers safety-oriented design in both its hardware and BMS integration. With durability of up to two to three times that of similar solutions, the UZR Gen3 Series is a reliable, long-term investment that matches the replacement cycle of other core IT infrastructure solutions. It also delivers a service life of up to 10 years operation, ensuring it is dependable and worry-free. Economic benefits. With its smaller footprint, long service life and high energy efficiency, the UZR Gen3 Series delivers significantly reduced customer capital investment and operation expenses. Furthermore, with less self-discharge and heat dissipation, the UZR Gen3 Series helps save OPEX, and its long service life makes budgeting and IT investment planning easier. Usability and efficiency. Enclosed in a Standard 19” rack cabinet, the robust battery cabinet offers top cable entry and front access, making maintenance easy. A third of the size of alternative UPS solutions, the UZR Gen3 Series’ excellent space management enables convenient placement against a wall, optimising floor space use. It is 45% lighter than a VRLA battery, which further simplifies installation and upkeep. Despite its compact size, performance has not been compromised; the UZR Gen3 Series delivers the highest power density battery system for a data centre UPS. It delivers up to 470kW output with rated energy of 62.1kWh. It also charges up to ten times faster for improved charge times (2C vs. 0.2C). The UZR Gen3 Series from Delta offers data centres a powerful tool for boosting efficiency and reliability while substantially lowering costs. Its innovative design and integration capabilities make it a vital component in modernising power management infrastructures. For more from Delta Power Systems, click here.

GridBeyond to provide BESS to Keppel DC REIT’s data centres

GridBeyond will be delivering Battery Energy Storage Systems (BESS) solutions to Keppel DC Dublin 1 and 2, which are located at City West and Ballycoolin, Ireland, respectively. The two data centres are owned by Keppel DC REIT, a Singapore listed pure-play data centre REIT. The BESS at the two data centres will provide additional flexible capacity to the power system. By adding this flexible capacity, the BESS will help integrate more renewable energy sources into the energy mix and support the grid in times of stress for the benefit of all consumers. This will also add 8MW of flexible capacity to the grid ahead of the winter peak demand period.  The project includes the installation and management of a 2 x 2MW/2.2MWh battery at the Citywest site and a 4MW/6.1MWh battery at the Ballycoolin site. GridBeyond will manage the flexibility of the sites by connecting the batteries to its AI-powered energy technology platform, GridBeyond Point. Power from the batteries will be discharged in response to instructions from the grid operator to provide green power during times of grid stress.  Historically, during times of grid stress, generation facilities, often carbon-intensive, are brought online to balance the grid. By capturing excess renewable energy from renewable sources that would otherwise be wasted the BESS will be able to provide lower carbon flexibility to the system when required.   It is also estimated that the installation of the two batteries at the two data centres will deliver a reduction of 240,000kg of CO2 per year, further advancing the two companies’ net zero agenda. GridBeyond Regional Director for Ireland, Denver Blemings, says, “This project shows how data centres can play a bigger role in the energy transition. It’s great to see companies, like Keppel DC REIT, use demand response programmes to support the grid and use renewable energies in the delivery of their activities”.  Gary Watson, Country Manager (Ireland) of Keppel DC REIT, says, “Leveraging this partnership with GridBeyond, Keppel DC REIT’s is able to take another step towards our 2030 net zero targets. We will also explore other ways to increase the use of renewable energy, such as installing on-site solar, to bolster our efforts to decarbonise our operations.” 

Eaton announces launch of 5P Gen 2 UPS

Intelligent power management company, Eaton, has announced the launch of the Eaton 5P Gen 2 UPS, a compact and more efficient power solution for edge and IT needs. Delivering more output, security and control than any other device in its class, this new product range also enables fleet management, remote UPS setting and remote firmware upgrades. The 5P Gen 2 has enhanced power capability and provides up to 1350W, which is 22% more than its predecessor and 33% more than comparable models available on the market, making it ideal for protecting a wide range of applications. Its intelligent design ensures both stable performance and energy savings, while advanced load segment control prioritises critical equipment and optimises battery runtime. This UPS model features the Eaton ABM+ Advanced Battery Management technology, which extends battery life by up to 50% and allows for accurate battery life prediction and timely replacement alerts powered by machine learning. It also comes with hot-swappable batteries and an intuitive battery replacement wizard via a built-in graphical LCD. Eaton’s Intelligent Power Manager (IPM2) and Distributed IT Performance Management (DITPM) software enable remote monitoring and management of IT infrastructure, even in hard-to-reach locations, including secure device configuration and firmware updates. The Eaton 5P Gen 2 UPS, together with the cybersecure Gigabit Network Card (included in the Netpack versions), meets stringent cybersecurity standards. Moreover, Eaton’s Brightlayer Software Suite is available for seamless integration with virtualisation environments, ensuring continuous service and data integrity. Whether customers opt for the compact 1U rack or the tower option, the Eaton 5P Gen 2 UPS fits all space requirements, making it compatible with a variety of setups. For more from Eaton, click here.

How data centres can prepare for 2024 CSRD reporting

by Jad Jebara, CEO of Hyperview. The CEO of Britain's National Grid, John Pettigrew, recently highlighted the grim reality that data centre power consumption is on track to grow 500% over the next decade. The time to take collective action around implementing innovative and sustainable date centre initiatives is now - and the new initiatives such as the Corporate Sustainability Reporting Directive (CSRD) is the perfect North Star to guide the future of data centre reporting. This new EU regulation will impact around 50,000 organisations, including over 10,000 non-EU entities with a significant presence in the region. The Corporate Sustainability Reporting Directive (CSRD) requires businesses to report their sustainability efforts in more detail, starting this year. If your organisation is affected, you’ll need reliable, innovative data collection and analysis systems to meet the strict reporting requirements. CSRD replaces older EU directives and provides more detailed and consistent data on corporate sustainability efforts. It will require thousands of companies that do business in the EU to file detailed reports on the environmental impact and climate-related risks of their operations. Numerous metrics being assessed are still widely analysed within additional EU-wide initiatives. For instance, the Energy Efficiency Directive (EED) requires reporting on two Information & Communication Technologies (ICT) within the CSRD Directive – ITEEsy and ITEUsy – allowing for enhanced measuring and insight into server utilisation, efficiency, and CO2 impact. Given the anticipated explosion in energy consumption by data centres over the next decade, CSRD will shine a spotlight on the sustainability of these facilities. For example, the law will require organisations to provide accurate data for both greenhouse gases and Scope 1, 2 and 3 emissions. The essential metrics that data centres will need to report on include:   Power usage effectiveness (PUE) – measures the efficiency of a data centre’s energy consumption   Renewable energy factor (REF) – quantifies the proportion of renewable energy sources used to power data centres   IT equipment energy efficiency for servers (ITEEsv) – evaluates server efficiency, focusing on reducing energy consumption per unit of computing power   IT equipment utilisation for servers (ITEUsv) – measures the utilisation rate of IT equipment   Energy reuse factor (ERF) – measures how much waste energy from data centre operations is reused or recycled     Cooling efficiency ratio (CER) – evaluates the efficiency of data centre cooling systems    Carbon usage effectiveness (CUE) – quantifies the carbon emissions generated per unit of IT workload   Water usage effectiveness (WUE) – measures the efficiency of water consumption in data centre cooling   While power capacity effectiveness (PCE) isn’t a mandatory requirement yet, it is a measure that data centres should track and report on as it reveals the total power capacity consumed over the total power capacity built. If not already, now is the time to ensure you have processes and systems in place to capture, verify, and extract this information from your data centres. We also recommend conducting a comprehensive data gap analysis to ensure that all relevant data will be collected. It’s important to understand where your value chain will fall within the scope of CSRD reporting and how that data can be utilised in reporting that’s compliant with ESRS requirements. For example, reports should be machine-readable, digitally tagged and separated into four sections – General, Environmental, Social and Governance. While the immediate impact of CSRD will be in reporting practices, the hope is that, over time, the new legislation will drive change in how businesses operate. The goal is that CSRD will incentivise organisations such as data centre operators to adopt sustainable practices and technologies, such as renewable energy sources and circular economy models. Improving sustainability of data centres    Correctly selecting and leveraging Data Centre Infrastructure Management (DCIM) that offers precise and comprehensive reports on energy usage is a paramount step in understanding and driving better sustainability in data centre operations. From modelling and predictive analytics to benchmarking energy performance - data centres that utilise innovative, comprehensive DCIM toolkits are perfectly primed to maintain a competitive operational advantage while prioritising a greener data centre future. DCIM modelling and predictive analytics tools can empower data centre managers to forecast future energy needs more accurately, in turn helping data centres to optimise operations for maximum efficiency. Modelling and predictive analytics also enables proactive planning, ensuring that energy consumption aligns with actual requirements - preventing unnecessary resource allocation and further supporting sustainability objectives.  Real-time visibility of energy usage gives data centre operators insight into usage patterns and instances of energy waste, allowing changes to be made immediately. Ultimately, eliminating efficiencies faster means less emissions and less energy waste. In addition to enhancing operational efficiency, leveraging these real-time insights aligns seamlessly with emission reduction goals – supporting a more sustainable and conscious data centre ecosystem. Utilising the right DCIM tools can also reduce energy consumption by driving higher efficiency in crucial areas such as cooling, power provisioning and asset utilisation. They can ensure critical components operate at optimal temperatures, reducing the risk of overheating and preventing energy wastage. In addition to mitigating overheating and subsequent critical failures, utilising optimal temperature tools can also improve the lifespan and performance of the equipment. The right DCIM tool kit enables businesses to benchmark energy performance across multiple data centres and prioritise energy efficiency – while also verifying the compliance of data centres with key environmental standards and regulations like CSRD. Cutting-edge DCIM platforms also enables data centres to correctly assess their environmental impact by tracking metrics such as power usage effectiveness (PUE), carbon usage effectiveness (CUE) or water usage effectiveness (WUE). These tools facilitate the integration of renewable energy sources - such as solar panels or wind turbines - into the power supply and distribution of green data centres. As sustainability continues to move up the corporate agenda, expect to see greater integration of DCIM with AI and ML to collect and analyse vast quantities of data, such as sensors, devices, applications and users. In addition to enhancing the ease of data collection, this streamlined approach aligns seamlessly with CSRD emission reduction goals - making compliance with CSRD and similar regulations much easier for data centres. Taking a proactive approach to the data gathering requirements of CSRD and implementing technologies to support better sustainability practice isn’t just about compliance or reporting; it’s also to incentivise data centre operators towards the adoption of sustainable practices and technologies. Ultimately, data centres that are prepared for CSRD will also be delivering greater value for their organisation while paving the way for a more sustainable future.

Centiel launches rapid deployment UPS hire service

Centiel's award-winning UPS innovations are now available to hire on a short or longer-term basis for data centres needing instant power protection during refurbishment, or other facilities such as hospitals which require an immediate, temporary uninterruptible power supply. Andrew Skelton, Operations Director at Centiel, explains, “We offer flexible, rapid deployment of our industry leading UPS solutions from our standalone and modular ranges from 10kW to 1.5MW. We also have containerised modular UPS solutions for larger projects between 50kW and 1.5MW. Our containerised solutions hire includes electrical installation, integral lighting, fire detection and suppression, cooling, batteries and 24/7/365 support with guaranteed site attendance, making it suitable as a full ‘plug and play’ emergency option or for facilities needing to back up their existing UPS while refurbishment or other works take place. “Our UPS hire solution can be arranged to suit specific needs at very short notice. Subject to availability, we currently have two 600kW and one 300kW containerised, flexible UPS solutions ready to deploy within 48 hours and we are currently adding to the fleet. We can also parallel them together for sites requiring up to 1.5MW of backup power. The containers can be delivered onto suitably rated hard standing areas to suit disaster recovery situations or planned shutdowns. “The UPS's arrive fully tested with batteries already charged. We simply deliver the bespoke containerised UPS solution into position, install the top row of batteries and connect the AC input and output cabling via Powerlock connections, so the system is typically up and running within six hours of delivery.” Routine maintenance is covered by the hire charge for extended hire periods and Centiel’s UPS can remain on site for as long as the facility needs critical power protection. Hiring a UPS may be a tax efficient way to solve an organisation’s short term power protection problems as a purchase comes out of Capital Expenditure (CAPEX), whilst a rental can be set against Operational Expenditure (OPEX). Centiel’s UPS hire service is available for its standalone UPS PremiumTower and also its three-phase, modular UPS CumulusPower which offers '9 nines' (99.9999999%) availability to effectively eliminate system downtime; class leading 97.1% on-line efficiency to minimise running costs and true 'hot swap' modules to eliminate human error in operation. Andrew continues, “Our fast deployment UPS's, including our containerised solutions, are ready to go. They are an ideal temporary solution for data centres, hospitals or other facilities needing to provide critical power at short notice or for an economical option to support more planned projects.” Centiel now protects critical loads for data centres and comms rooms in over 100 countries across five continents. For more from Centiel, click here.

Kohler launches new KD Series industrial generator

Kohler Power Systems, part of Kohler Energy, has expanded its KD Series line of industrial generators with a new model, KD800, designed for 50hz markets. This generator features a new advanced engine (KD18L06) that can also run on Hydrotreated Vegetable Oil (HVO) as a renewable fuel source. This new model joins a proven series of gensets that continues to provide the highest power density and best fuel consumption at more nodes than competitors between 800-4500 kVa, offering cost savings to users. The new KD unit is designed to power mission-critical applications, including airports, hospitals, and healthcare facilities, water treatment plants and mid-sized data centres. The KD800 joins Kohler’s industrial generators that are engineered to use HVO fuel. HVO provides a more sustainable alternative to conventional diesel and biofuels. No adaptation is needed and both HVO and diesel can be mixed together. HVO is also highly stable, with no sensitivity to oxidation, so it can be stored long-term. It enables to offset carbon emission by up to 90% by using renewable waste products. Kohler’s KD Series is designed to deliver extreme durability and ultimate reliability in a variety of emergency and prime applications. KD Series generators are engineered to last, with better fuel economy and a small footprint. When paired with Kohler’s global sales and support network, the KD Series line-up provides an innovation that secures customers’ critical operations. And when service is needed, Kohler has a global dealer and distribution infrastructure consisting of more than 800 facilities offering 24/7 parts availability. For additional details about the Kohler KD Series range, visit its product catalogue by clicking here. For more from Kohler, click here.

Don’t compromise on power protection

By David Bond, Chairman, Centiel UK When we are ill, we consult a doctor, a trusted expert in the human body, to diagnose and appropriately treat the problem. They will also advise on how to best prevent a recurrence of the problem. Hopefully, we don’t listen to “old wives tales” that guarantee an immediate cure. The same common sense applies with the diagnosis, help and advice for critical power protection. Nobody would knowingly purchase an inferior UPS, but how would they know a good UPS from an inferior one? If you’re not a UPS expert, it’s easy to fall for sales talk and marketing speak, but just like a doctor won’t try and ‘sell’ you unnecessary medication, real UPS experts will act as trusted advisors and will only act in their customers’ best interest. No sales 'spin', just facts and sound advice. While Centiel’s team of UPS experts don’t swear an hypocritic oath like a doctor does, every Centiel employee signs up to a set of core values which keeps the best interests of customers at the heart of everything they do, namely:   We always behave with integrity We are honest and open in our business transactions We treat our customers, suppliers and each other with respect We constantly strive to improve our customer service We never compromise on health, safety or environmental matters Finding the best way to protect critical power is a complex topic. Therefore, Centiel’s expert team act as trusted advisors to all customers, including data centres, hospitals and all IT facilities, to ensure they always have the optimal UPS solution, whilst reducing their Total Cost of Ownership (TCO) and maximising their system availability. Centiel’s engineers and UPS solutions experts and are not required to 'sell' UPS. Instead they establish long term relationships by offering their wealth of experience and expertise. By taking time to understand the challenges faced, they always provide the best advice in relation to solutions based on best practice. It's this long-term vision and close relationships with Centiel’s clients which led to the development of its industry-leading UPS solutions. For example, Centiel recently launched StratusPower, which shares all the benefits of the award-winning three phase, true modular UPS CumulusPower - including '9 nines' (99.9999999%) availability to effectively eliminate system downtime; class leading 97.6% online efficiency to minimise running costs; true 'hot swap' modules to eliminate human error in operation – but now also includes long-life components to improve sustainability. StratusPower minimises TCO because of its class-leading efficiency and low maintenance costs and it is fully scalable, so is unlikely be outgrown.   Centiel’s experts help organisations around the world understand TCO calculations and provide best recommendations to protect power from day one and into the future. Armed with this information, informed decisions can be made about the most appropriate option to protect critical power, reduce carbon footprint and maintain the highest level of availability. So just like you would consult a doctor to maintain your optimal health, when it comes to looking at UPS solutions, don’t compromise. Choose experts who will provide best advice to protect your critical power. To arrange a discussion or for more information, click here.

Pulsant gains recognition for environmental and sustainability initiatives

Pulsant has seen its commitment to environmental and sustainable working practices receive two key industry certifications in recognition of its focus on environmental and sustainability initiatives across its data centre estate and management systems.  Rating in the top 25% of responding businesses, it received a silver medal from EcoVadis, with particular strengths in the area of its environmental practices. This achievement reflects Pulsant's commitment to environmental stewardship and social responsibility. The company has implemented numerous initiatives to reduce its carbon footprint, minimise waste, and promote ethical business practices, including wellbeing and mental health. Furthering its sustainability credentials, its energy management system has been awarded the respected ISO 50001 certification, giving independent assurance to its effectiveness in improving its energy performance. As an operator of a variety of UK data centres, it is working towards an overall PUE of 1.3 by 2030, and is on track to surpass the 2023 target of 1.53, following from the success of a number of initiatives such as consolidation project at Maidenhead site, cold aisle containment, cooling and UPS infrastructure upgrades, and temperature optimisation. Commenting on the news, Helen Munro, Head of Environment and Sustainability at Pulsant, notes, "Sustainability is a key priority at Pulsant. We are committed to continuous improvement across all aspects of our activities, both internally and across our wider supply chain. These certifications highlight that our comprehensive policies and programmes are delivering meaningful results. Credit to the teams across our sites and operations across all parts of the business for making it happen." As the need for improved environmental management intensifies, Pulsant is focused on further minimising its climate impact, with initiatives already underway, including piloting HVO fuelled generators and evolving cooling technologies. “We are currently ahead of the annual targets we set to work towards our 2050 net zero targets, but well aware that we need to continue to push to find new opportunities to improve our carbon footprint and environmental impact in the years ahead. We all have a part to play in safeguarding the planet and we are aware of the role our organisation needs to play in that,” concludes Helen.

Schneider Electric finalises acquisition of EcoAct 

Schneider Electric has announced that it has finalised the acquisition of EcoAct SAS (EcoAct), an international leader in climate consulting and net zero solutions headquartered in Paris, France. The completion of the transaction follows consultation with the relevant employee representative bodies and approval from the competent regulatory authorities.   The acquisition represents the coming together of two best-in-class organisations to accelerate business solutions that deliver true value for both climate and clients. EcoAct’s portfolio of net zero and nature-based products and services, including consulting, climate data tools, and carbon offset project development, will expand and accelerate Schneider Electric’s global Sustainability Business, a provider of advisory services in the areas of energy management, energy efficiency, renewable energy and environmental commodity procurement, sustainability and net zero consulting, climate risk, sustainability communications, and reporting and disclosure.   The joining of the two organisations expands Schneider's capabilities to provide end-to-end solutions that lead organisations through the net zero transformation and beyond. The company’s advisory services support the development of sustainability strategy and target setting through to decarbonisation across scope one, two and three, enhanced by its AI-led portfolio of digital and data management tools.  “We have long admired the team at EcoAct, and bringing our two organisations together will help us to accelerate the ability to serve our clients all over the world,” says Steve Wilhite, President, Sustainability Business. “Companies understand the urgency to act but continue to face complexities, when it comes to decarbonisation. I’m confident that our combined best-in-class teams will help our clients to accelerate even faster towards their net zero ambitions.”  “Urgent climate action is at the heart of our mission, and I know we’ve found the right partner in Schneider Electric,” says Stuart Lemmon, CEO of EcoAct. “The company’s own demonstrated commitments to net zero – in its own operations and for its clients – speaks loudly in the market, and our EcoActors are excited to join together with another leading advisory team, putting climate and nature centre stage to accelerate sustainable corporate transformation.” 

The role of generator maintenance in ensuring power resilience

Until now, renewable energy plants in Germany have not been set up for emergency power supply in the event of a power outage. That is about to change, thanks to the award-winning LINDA research project and Crestchic’s load bank technology, which is a critical part of the solution.  What is the LINDA project?  Funded by the Federal Ministry for Economic Affairs and Energy, the project looks at how renewable energy plants could supply power to a local 'island' grid in a decentralised way in the event of a power failure. The project, Local Island Grid Supply and Accelerated Grid Reconstruction, with Decentralised Generation Plants in the Event of Large-scale Power Outages (or the more simple 'LINDA'), seeks to explore, test and implement ways of making power generation systems use renewable energy sources for emergency power supplies.  In 2018, phase one of the project, which involved partners from across academia and industry, including the Augsburg University of Applied Sciences, the Technical University of Munich, LEW Verteilnetz and LEW Wasserkraft, and KIMA automation, won the ISGAN Award (International Smart Grid Action Network) and the Bavarian Energy Prize. The project included the development of a new emergency generator that successfully integrated renewable decentralised power generation systems, including photovoltaic systems, hydroelectric power plants and a biogas plant, into an independent island grid. In the event of a power failure, the system was designed to supply a local grid with electricity power from existing renewable energy sources.  Emergency power - limitations of the current approach  Historically, emergency power generators have been operated in such a way that power failures can result in a temporary lapse in supply while the generator kicks in. As well as causing momentary outages and fluctuations in supply, these backups are usually supplied by diesel generators. With the new approach, the system is designed to provide a continuous supply in the event of a power failure, using power from multiple decentralised systems, and crucially, favouring renewables as a backup power source.  In pilots of the system, LINDA was able to guarantee the uninterrupted power supply of households in the test communities. This was done without costly retrofitting of the current systems, providing an important building block for the energy transition and improved security of supply. LINDA 2.0 - automating backup power  In the second phase of the project, LINDA 2.0, the research team is developing a supply concept with battery storage and a diesel generator to provide an additional backup power supply. As well as providing a backup, the system is being designed to automatically balance the fluctuating power generation from decentralised systems and the energy load itself. As well as ensuring a stable and secure power supply without interruptions, the automation will enable the system to shift into emergency mode remotely, without the need for staff to be on site.  Bespoke loadbank solution helps to balance frequency  In order to automate the system, AVS - a German blackout management specialist that provides generators and grid stabilisation systems to a range of industries - worked with the team at Crestchic Loadbanks to create a fully automatic hybrid frequency-controlled power control for generators up to 1300kVA.  Dubbed AVS Greenomic, the solution allows the system to prioritise drawing on renewable energy, for example, CHP, wind power or photovoltaic systems, in order to provide backup power in a blackout scenario, allowing diesel fuel consumption to be reduced by up to 80%. The load bank itself provides a stability of voltage and frequency when switching between different power sources, and maintains a constant 20% load on the generator. Any oversupply of energy is also consumed in a controlled manner, helping to balance the power generation system and smooth out any frequency imbalances. Mike Derbyshire, European Area Sales Manager at Crestchic, explains, “We’ve worked with AVS for a number of years, so were delighted to collaborate with them on a bespoke solution that would meet the requirements of the LINDA project. Our standard loadbanks and controllers were adapted to allow AVS to add their own control system, and we added additional fuse protection, an interface between the loadbank and the Greenomic assembly and the power connections themselves, all of which enables the system to balance the frequency and ensure and reliable and stable supply. It’s a high-profile project and we’re pleased to have been able to use our technical experience to support and enable the project goals.”