Energy Management

CtrlS Datacenters launches GreenVolt1 solar farm

CtrlS Datacenters has unveiled its captive GreenVolt1 solar farm in India. Phase I of the solar farm with a capacity of 62.5MWp already went live in June 2024, while Phase II with an additional capacity of 62.5MWp is under implementation. CtrlS spent over a year in R&D to optimise the project and comply with all the regulations.          With ambitious plans to develop over GW of renewable energy capacity by 2030 across India, including notable ongoing investments in Maharashtra, Uttar Pradesh and Karnataka, CtrlS is dedicated to reducing carbon emissions and promoting renewable energy adoption. Sridhar Pinnapureddy, Founder and CEO, CtrlS Datacenters says, “GreenVolt 1 will power CtrlS data centres both existing and upcoming, which we believe will set a new benchmark in the Indian data centre industry. We are committed to scaling our DC capacity to over 1GW and our GreenVolt solar farm is a major step towards doing that sustainably.” As part of the $2 billion investment plan announced by CtrlS earlier, the company has set its eyes to achieve net zero goal by 2040. To fulfil that goal, CtrlS is investing in solar projects across India. “GreenVolt1 is a giant leap with an intent to make bigger strides and expand GreenVolt projects across India. This is part of our journey towards sustainability, guided by the idea of responsible growth. We are now closer than ever before to the big picture- Making CtrlS completely carbon neutral by 2040,” Sridhar adds. Located in Nagpur, Maharashtra, the 125 Wp solar farm will power 60% of CtrlS’ Mumbai Datacenter Campus with clean energy, further solidifying the company’s green credentials. With this, enterprises hosted at CtrlS Mumbai Datacenter Campus can achieve their Sustainable Development Goals (SDG) by offsetting their carbon footprint – in line with the brand mission of helping them take control of digital transformation seamlessly, securely and sustainably. CtrlS GreenVolt 1 is spread over 340 acres of land. Phase 1 of the project, which went live in June 2024, powers 30% of CtrlS Mumbai Datacenter Campus with solar energy, to be further scaled to 60% with the completion of Phase 2, adding another 62.5 MWP of solar capacity. Key differentiators CtrlS’ GreenVolt1 solar farm has a geographic advantage. Most solar farms are isolated in remote areas, but this site is located along the Mumbai-Kolkata highway, ensuring seamless connectivity. It’s a rare tabletop land, ensuring optimal utilisation of land area, evenly laid-out solar panels and cost-savings. While most solar farms in India use P-type panels, CtrlS GreenVolt 1 uses advanced N-type panels, the most efficient solar panels, delivering more energy with reduced land requirements and ensuring high efficiency in energy production. In phase 1, the company has installed 107,912 solar panels. CtrlS is on a mission to build over 1GW of solar capacity by 2030, which will power the company’s data centre footprint of over 1,000MW by 2030.

Five tips to illuminate your data centre for peak performance

Data centres are among the most energy-intensive buildings in the world. With no windows, these buildings rely entirely on artificial lighting, making the quality and efficiency of the lighting systems crucial. The right lighting can help data centre facilities managers reduce energy usage and improve efficiency. LED lighting, for example, can reduce energy usage by up to 50%, and LED lighting with higher lumens per watt can further increase these energy savings. Ed Haslett, Divisional Director – Critical Facilities UK & Ireland at Zumtobel Group, shares five key points to consider to improve the efficiency of your data centre lighting. 1. Use a lighting track system for speed, flexibility, maintenance and sustainability Lighting track systems, such as the Tecton track system, eliminate the need for traditional cable runs and junction boxes, making installation faster, easier, and more sustainable. The Tecton system allows the installer to connect a luminaire anywhere along the run, providing unparalleled flexibility compared to other systems. Tecton installations are typically 61% quicker to install than traditional hard-wired solutions and 30% faster than some competitors. This system's flexibility in layout and maintenance allows for easy reconfiguration and repairs, making it an ideal choice for dynamic data centre environments. 2. Use the right luminaire intensities and beam angles to maximise spacing of luminaire points Selecting luminaires with appropriate intensities and beam angles ensures sufficient illumination while minimising the required fixtures. This not only reduces installation costs but also contributes to energy savings. However, it's important to note that the mounting height and intensity can significantly alter the spacing between luminaires. In some designs, it is possible to reduce from seven luminaires in a row to five, cutting commercial costs and decreasing the size of central battery systems, lighting control systems, and wattage loads significantly. However, this may not be feasible in all data centre environments, and careful planning and assessment are necessary. 3. Utilise dedicated emergency spots to reduce the number of emergency luminaires Employing dedicated emergency spotlights instead of traditional emergency luminaires for emergency illumination can significantly reduce the number of emergency luminaires required. The specially designed optics can be used in the design to deliver the required emergency illuminance without having to use more of the mains luminaires to achieve the requirements in emergency mode. Often, three mains luminaires are required to meet requirements in an aisle, where two dedicated emergency spots will do the job more efficiently with a significantly lower wattage requirement. This optimisation not only conserves space by utilising a smaller central battery system footprint, but also enhances the overall efficiency of the lighting system. Having a central battery system allows for an easier to maintain single point of maintenance for the site team, without the need to change out individual batteries in highly sensitive areas on a monthly basis, for individual failures. The batteries for these systems can then be placed in an area not subject to the high temperatures found in data halls, so the systems can have much longer life expectancies than the less robust integral emergency packs commonly used in the UK. Data centres are typically hot environments, so the equipment being used to support these areas need to be capable of working for sustained periods of time within these temperatures. Most integral battery luminaire solutions are not designed or tested to the levels seen in data centres, especially for these buildings which are in operation 24/7. The added benefit of the system monitoring the health of the emergency luminaires for reporting, also allows the site team to carry out maintenance only when required. 4. Implement dark sky compliant external lighting for environmental and nocturnal animal life Data centres, as high-security critical environments, should not stand out as beacons in their surroundings. It's crucial to maintain a low-key presence in the built environment. Both humans and ecological systems rely on periods of darkness to thrive. By adhering to dark sky-compliant guidelines for exterior lighting, data centre facilities managers can ensure minimal light pollution, protecting the environment and contributing to the preservation of nocturnal animal life, whilst maintaining a level of security necessary for the site. This responsible approach to lighting underscores the data centre's commitment to environmental stewardship. Dark sky-compliant exterior lighting restricts the amount of upward-directed light, avoids glare and over-lighting, utilises dimming and other appropriate lighting controls, and minimises short-wavelength (bluish) light in the night-time environment. The International DarkSky Association offers the DarkSky Approved programme, providing third-party certification for products and projects that minimise glare, reduce light trespass, and protect the night sky. 5. Implement intelligent control systems to minimise energy consumption Integrating intelligent lighting control systems allows for dynamic adjustment of lighting levels based on occupancy and required light conditions. This feature ensures optimal illumination while minimising energy consumption and maximising energy efficiency. DALI (Digital Addressable Lighting Interface) control systems can save energy and money by dimming luminaires when not required to be working at full output, maintaining the light levels required for CCTV coverage, or switching off luminaires at specific times or when rooms are empty, potentially reducing the systems energy consumption by up to 82%. By adopting these five key strategies, data centres can effectively harness the benefits of modern LED lighting, leading to significant energy savings, reduced environmental impact, and enhanced operational efficiency. For more information on innovative lighting solutions, visit Zumtobel's website and explore its range of products designed to optimise data centre performance. For more from Zumtobel, 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.

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.” 

Is on-premise hydrogen production for greenhouse gas abatement a viable option?

By Joe Sheehan, Technical Director, i3 Solutions Group With green hydrogen widely touted as the most desirable option for achieving climate change goals, the debate is heating up in the data centre sector, where proponents of hydrogen believe it could well be an ideal primary power source for putting the sector on a path to net zero. But if hydrogen is the answer, there are important issues to address, not the least of which the necessary changes to the utility power and gas infrastructure. Additionally, we urgently need to gather data on the greenhouse gas (GHG) abatement benefits that might accrue from data centres using hydrogen. For a data centre, the real GHG abatement value of hydrogen lies in decarbonising the electricity supply - swapping out the utility grid for primary power and using green hydrogen to fuel engines or fuel cells for continuous use. This would take the data centre’s electrical consumption and replace it with a genuine source of renewable energy, since hydrogen causes no carbon emissions in use and green hydrogen is generated using only power from renewable sources. But achieving such a goal brings its own challenges. While many countries have developed a strategy for hydrogen, the hydrogen economy itself – in the form of production, transport and storage - is just not here yet. Practically no location yet supplies infrastructure or any piped hydrogen. It is certainly not yet possible to bring in vessels containing compressed hydrogen at a sufficient volume and rate to provide for full and continuous operation of a modern data centre. One obvious solution to this challenge could be for data centres and other energy intensive users to become both hydrogen producers and storage facilities. However, there isn’t currently a viable on-site source of clean energy that would produce green hydrogen by electrolysis of water. Where could such an energy supply come from? One possible answer is for data centres to tap into a renewable power grid and utilise such a grid’s surplus energy for the production of green hydrogen. When the wind is blowing or the sun is shining and/or demand is low, taking electricity from Renewable Energy Resources (RERs) means the carbon emissions associated with each kilowatt hour of energy supply are low. And in the opposite circumstances – when the wind is not blowing, the sun is not shining, and electrical demand is high – data centres could operate using its own reserves of locally stored green hydrogen rather than the utility grid topping up capacity using fossil-fuelled power plants to fulfil demand. Use of hydrogen stored on-site for peak shaving at times of high demand and low renewable supply levels out demand on the grid. This is a form of carbon trade-off, since drawing less power from the grid reduces the use of fossil fuels, achieving a net gain in emissions reduction. But is the round-trip efficiency, using this strategy good enough to achieve a meaningful advantage? Modelling the carbon benefits The big question is whether on-site hydrogen production is economically and spatially viable and offers affordable benefits in terms of greenhouse gas abatement. Using carbon intensity data which is publicly available from grid networks in the UK and Ireland, i3 built a mathematical model of the process and measured what GHG abatement benefits it might bring about. It factored in the storage and technology that would be necessary, with the model using a nominal 10MW data centre in different locations. The model showed the returns are quite modest in terms of carbon emission reductions in places like Scotland, where there are a lot of renewables on offer. It is possible to reduce by about 10% a data centre’s energy or carbon emissions - approximately 500 tonnes of carbon per year. Interestingly, the percentage reduction in the southeast of the UK was smaller, but that worked out to be the same carbon reduction in absolute terms because there is higher grid carbon intensity in the region. In other words, the carbon costs are higher, so a smaller percentage reduction is an equivalent saving. These modest returns need to be weighted against the cost of applying the hydrogen technology to data centres at sufficient scale. The i3 model provides useful insight about the need to coordinate with grid-level facilities. It has also aided understanding of how battery energy storage, and in future, hydrogen, could be used in conjunction with the grid for a range of technologies, including various forms of energy storage and electricity demand reduction in data centres. The tool developed can be applied to data centre designs for many types of energy storage systems and reveal what potential benefits they bring about in terms of carbon reduction. The amount of activity in the hydrogen market, from production to transport to storage is accelerating. The biggest cost is green hydrogen production, for which excess renewable energy is required. However, it is projected that these costs will come down. Some point to conditions where because grids are integrating increasing amounts of power generated using renewable energy sources this will lead to excess capacity at times of low user demand, making more clean energy available for electrolysis. In addition, the huge growth in the scale of electrolyser production will aid the speed at which the economics of green hydrogen production will swing in favour of the consumer. As green hydrogen becomes more available, the economies of scale will start to improve, making hydrogen a more viable fuel source for electricity for powering data centres. Production value Like many countries, the UK is a long way from a national hydrogen gas transport network (pipes), and therefore local production in data centres and other energy intensive industries should be considered. Designing and developing data centres with hydrogen in mind needs to happen. We can future-proof data centres for the growth of hydrogen production and supply, for example, by specifying the use of reciprocating engines or fuel cells which can be run using hydrogen as well as other fuels in data centre designs. Click here for more latest news.

Hyperscale data centres key to driving APJ’s energy transition

As corporations and governments pursue the challenge of achieving a low-carbon future in Asia Pacific & Japan (APJ), AirTrunk has released its ‘Powering a Clean Energy Future’ report that identifies hyperscale data centres as key drivers in APJ’s energy transition to 24/7 clean energy (CE). The report highlights how a hyperscale data centre’s size, electricity demand profile, innovation capabilities and proven experience in procuring renewable energy puts them in a prime position for partnership to accelerate the transition. Through energy system modelling, the report also determines the most effective technology pathways and costs to reaching 24/7 (CE), providing holistic analysis of what is required. AirTrunk's Head of Energy and Climate, Joscha Schmitz, says, “24/7 clean energy is crucial to achieving climate targets by fully decarbonising power grids. As the major hyperscale data centre provider in APJ, we released this report with the intention to build momentum towards achieving 24/7 clean energy in the region.” “24/7 clean energy is more advanced in the European and North American markets due to resource availability and market maturity. The report outlines opportunities to successfully deliver clean energy technology in APJ, which is the fastest growing region, but the one experiencing the most difficulty in managing the energy transition,” says Joscha. The report recognises the need for more industry collaboration and highlights the six steps key industry players and governments must do to fully realise the potential of 24/7 CE in APJ, including: Increase and strengthen grid interconnection between markets Accelerate ‘green molecules’ and other new firming and storage technologies Diversify renewables portfolio with local firming solutions Leverage on-site infrastructure to support local grids and power markets Shift non-latency-sensitive loads to lower cost markets Start the discussion to achieve 24/7 clean energy in a cost-optimal way AirTrunk's Chief Technology Officer, Damien Spillane, says, “Major corporations and governments in APJ have made significant emissions reductions commitments, however in the current climate, it remains challenging to achieve these. That’s why we are calling on energy providers, sustainability groups, corporations and governments to work together, and with us, to facilitate a clean energy future for all.” “We take our responsibility as a key enabler of the transition seriously and will continue to focus our efforts on decarbonisation as we progress toward net zero emissions by 2030,” says Damien. The ‘Powering a Clean Energy Future’ report can be downloaded here. Click here for more latest news.

Data centres’ net zero plans blown off track by the energy crisis

According to research published by Schneider Electric, 81% of business leaders at UK and Irish data centres say the energy crisis will impact their organisation’s ability to meet its emissions reduction plans. Of that figure, around half of organisations say they are delaying planned investment in sustainability and net zero plans (49%). Four in ten of the same organisations (40%) say they now have more immediate business challenges to meet, while 43% claim that emission reduction targets are no longer an issue for their stakeholders. More than one in five (22%) of these firms claim that taking practical action to meet targets is difficult. Decarbonisation helps businesses reduce energy use and lower energy costs at a time when energy prices remain volatile.  Crucially, the survey of more than 1,500 large organisations reveals that business leaders still recognise the importance of working to emissions reduction targets, as nearly one third (32%) of data centre business leaders believe that climate change and net zero ambitions will become more of a priority over the next three years. Only a small minority (11%) believe that national net zero commitments will be diluted in that time. “Business leaders tell us that the energy crisis should be seen alongside the many other challenges they have faced over the last twelve months, including economic pressures, cyber security and skills shortages. Yet our research suggests that some of the UK and Ireland’s data centres are ‘kicking the carbon emissions can down the road’, as a result of the energy crisis,” says Mark Yeeles, Vice President, Secure Power Division, Schneider Electric UK and Ireland. “As fears grow about progress against global commitments made under the Paris Agreement, and the UK’s Climate Change Committee warns of a lack of progress on emissions cuts, the UK and Ireland need data centres to play their part and stick to their net zero and emissions reduction targets,” says Mark Yeeles. The survey also reveals that 32% of data centre managers believe that energy prices will fall over the next three years, while more than seven out of ten (71%) think their organisation will still be addressing the energy crisis in 12 months’ time. Presenting the survey findings, Mark Yeeles urged data centres to re-engage with their emissions reduction ambitions, “It’s not all doom and gloom, as our research shows, business leaders still believe in their climate change ambitions – they simply need to push the subject back up the corporate agenda. “The technology required to help businesses decarbonise is already available – and the return on investment for these solutions has never been more attractive, with payback periods measured in months rather than years. Organisations still have time to meet their net zero commitments by understanding and addressing energy use, investing in renewable energy and energy saving technology, and embedding sustainability and carbon reduction targets in their business plans. “What’s more, those that invest in green skills and green jobs will reap the rewards of a diverse workforce for decades to come. At Schneider Electric, we’ve seen this for ourselves through our apprenticeship and graduate programmes.” Click here for more latest news.

AirTrunk releases report on powering a clean energy future  

As corporations and governments pursue the challenge of achieving a low-carbon future in Asia Pacific & Japan (APJ), AirTrunk has released its ‘Powering a Clean Energy Future’ report that identifies hyperscale data centres as key drivers in APJ’s energy transition to 24/7 clean energy (CE). The report highlights how a hyperscale data centre’s size, electricity demand profile, innovation capabilities and proven experience in procuring renewable energy puts them in a prime position for partnership to accelerate the transition. Through energy system modelling, the report also determines the most effective technology pathways and costs to reaching 24/7 (CE), providing holistic analysis of what is required. AirTrunk, Head of Energy and Climate, Joscha Schmitz, says, “24/7 clean energy is crucial to achieving climate targets by fully decarbonising power grids. As the major hyperscale data centre provider in APJ, we released this report with the intention to build momentum towards achieving 24/7 clean energy in the region. “24/7 clean energy is more advanced in the European and North American markets due to resource availability and market maturity. The report outlines opportunities to successfully deliver clean energy technology in APJ, which is the fastest growing region, but the one experiencing the most difficulty in managing the energy transition,” says Joscha. The report also recognises the need for more industry collaboration and highlights the six steps key industry players and governments must do to fully realise the potential of 24/7 CE in APJ, including: Increase and strengthen grid interconnection between markets Accelerate ‘green molecules’ and other new firming and storage technologies Diversify renewables portfolio with local firming solutions Leverage on-site infrastructure to support local grids and power markets Shift non-latency-sensitive loads to lower cost markets Start the discussion to achieve 24/7 clean energy in a cost-optimal way AirTrunk, Chief Technology Officer, Damien Spillane, says, “Major corporations and governments in APJ have made significant emissions reductions commitments, however in the current climate, it remains challenging to achieve these. That’s why we are calling on energy providers, sustainability groups, corporations and governments to work together, and with us, to facilitate a clean energy future for all. “We take our responsibility as a key enabler of the transition seriously and will continue to focus our efforts on decarbonisation as we progress toward net zero emissions by 2030,” says Damien.

Consult Red celebrates 20 years of innovation

Consult Red has marked its 20th anniversary of continuous success, growth and innovation. Over the past two decades, it has helped its clients transform the media, telecommunication and IoT technology landscapes. Since its inception in 2003, the company has remained steadfast in its commitment to delivering trusted consultancy and high quality engineering services, while embracing technological advancements and industry trends. Throughout the years, it has built an enviable reputation for its dedication to excellence, customer satisfaction and innovative solutions. "We’ve reached this significant milestone, thanks to our valued clients and the work of our talented and dedicated team," says Raghu Venkatesam, CEO at Consult Red. “We are grateful for the long-term trust and support of our clients, partners and stakeholders, who have been instrumental in our continued growth over the past two decades." Over the past 20 years, the company has achieved numerous milestones and accomplishments, including: Contributing to innovative product launches for our key customers, including set-tops, connected TV devices and embedded software services for media and connectivity operators across Europe, US and Asia. Delivering connected devices and systems for industrial and IoT applications, including vehicle charging, industrial vision, telehealth, power management, consumer devices and wireless connectivity. Establishing as an employee-owned company, giving employees a stake in the business and ensuring long-term stability for clients. Nurturing a talented and diverse global workforce that drives innovation and fosters a culture of collaboration and excellence. Click here for latest data centre news.