Energy IQ: Engineers Turn to Continuing Education in an Era of Technological Advancements

It took more than 40 years for half of all U.S. households to have a telephone after its invention, but only 10 years for half of the U.S. population to own a cell phone1. At 1,454 feet, the Empire State building stood as the world’s tallest building for nearly 40 years after it was built in 1931. But in the 40 years since, that mark has been topped numerous times, and was nearly doubled by the Burj Khalifa building in Dubai, reaching a lofty 2,717 feet in 2010.

Humanity continues to break its earthly limits in many ways today, and at an ever-increasing pace.

Keeping Pace Through Continuing Education

Engineers - Continuing EducationEvery day, engineers around the globe challenge the impossible to make these technological advancements possible and support our expanding infrastructure. For instance, to support the evolving electrical demands in designing taller, smarter, more eco-friendly buildings, electrical engineers are required to not only resolve the challenges of a changing industry, but maintain integrity and compliance with newer and ever-changing codes and regulations. And, coupled with rapid changes in technology, engineers turn to continuing education to not only maintain their license but also to earn a competitive edge through thought leadership content and discussion. 

Around the world, several institutions and local entities require engineers to participate in continuing education opportunities to keep their Professional Engineer (PE) or equivalent licenses. In the U.S., more than 40 states require engineers to complete a set number of Professional Development Hours (PDHs) every other year to keep their PE license current, with several states requiring up to 30 PDHs per engineer2.

Engineers - Continuing EducationCummins surveyed over 500 engineers to understand what they seek in continuing education programs. According to respondents, staying up to date with industry trends in order to ensure better job effectiveness was their primary objective, with "Codes and Standards" being the topic of interest that topped their list. For preferred formats, webinars were ranked as the top choice, followed by self-guided online training and face-to-face meetings or training sessions.

Continuing Education Opportunities Offered by Cummins

Engineers who are interested in critical technology updates, the latest codes and industry applications, as well as credited PDHs can take advantage of industry leading educational opportunities offered by Cummins: 

  1. Cummins PowerHour webinars offer monthly opportunities to tune in to live discussions on power systems, components and applications. 
  2. Cummins TechStream e-newsletter offer free access to technical white papers and case studies specific to power generation systems and segments, covering both trends and technologies. 
  3. Our two-day factory Power Seminar sessions offer in-person education opportunities featuring a combination of group learning and real-life application demonstrations.
  4. Our Lunch-and-Learn opportunities could be held at your location or at nearby Cummins distributor with the content customized per your specific needs.

To learn more about trends in continuing education for engineers follow Cummins on Facebook and LinkedIn. To learn more about continuing education opportunities Cummins offers for specifying engineers, visit our web page. To learn more about how Cummins is powering a world that’s "Always On," visit our web page.

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  1. McGrath G. R. (2013, November 25). The Pace of Technology Adoption is Speeding Up. [Web article]. Retrieved from
  2. Professional Engineers – Requirements by State [Web article]. (n.d.). Retrieved from

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Aytek Yuksel - Cummins Inc

Aytek Yuksel

Aytek Yuksel is the Content Marketing Leader for Cummins Inc., with a focus on Power Systems markets. Aytek joined the Company in 2008. Since then, he has worked in several marketing roles and now brings you the learnings from our key markets ranging from industrial to residential markets. Aytek lives in Minneapolis, Minnesota with his wife and two kids.

Energy IQ: From decarbonization to on-site generation, three energy trends for data centers

In 2017, a group of researchers estimated global data centers could use 25% of the world’s electricity by 2025 1. This is more electricity than any country in the world, including the U.S. You would be happy to hear this prediction is not materializing so far and you might be wondering, ‘how much energy and electricity data centers consume?’

The world’s data centers consume around 200 Terawatt-hours (TWh) of energy annually, almost all of it is electricity 2; this is about 1% of the world’s electricity consumption. While this is much lower than the prediction above, it still makes data centers a considerable consumer of energy. However, the data center industry has made significant progress to improve their energy efficiency. This has resulted in data center energy consumption to plateau in recent years. What is even more exciting is the industry’s ability to achieve plateauing energy consumption while successfully meeting its customers increased need for services. 

Global Data Center Energy Usage Plateaus
Global data centers energy usage plateaus

Now that the basics around data centers’ energy usage are covered, let’s move into the three data center energy trends you would likely hear more frequently in the years ahead.

No. 1: Increasing environmental consciousness is driving a focus on decarbonization

From airlines to data centers, lowering carbon emissions and decarbonization are increasingly getting traction across most industries. In the process of using 200 TWh of electricity, data centers create a significant carbon footprint. This is because they commonly rely on the world’s current power generation mix, which is still heavily fossil fuel based.

Two of the most popular decarbonization paths within the data center industry are the direct use of renewable energy sources and the use of renewable energy credits (RECs).

  • Direct use of renewable energy sources: This is where a data center is fully or partially powered by renewable energy e.g. geo-thermal, hydro, solar, and wind. While this is the more environmentally beneficial approach, it is also more challenging due to the intermittent nature of renewables. Data center operators rely either on existing electricity markets or in some cases, energy storage options to manage this challenge.

Direct use of renewable energy sources

  • Use of renewable energy credits (RECs): In this scenario, the data center operators purchase renewable energy and associated RECs. In cases where the renewable energy is produced in a location far away from the data center, the operator sells the renewable energy back to the grid and uses RECs to offset its carbon footprint. This is a common approach across the data center industry, and partially what makes Google the largest corporate buyer of renewable energy in the world 3. Here is how this approach is beneficial: it gives the renewable energy provider the customer commitment to invest in new projects, even if the renewable energy is not necessarily used by the data center. In other words, this approach delivers an increasing amount of renewable energy to the grid for all of us to use. Meanwhile, critics highlight that this approach doesn’t necessarily reduce the data center’s carbon contribution.

These two approaches are expected to co-exist in the data center industry’s path towards decarbonization.

No. 2: An increase in on-site energy generation

Data centers commonly rely on the grid as the primary source of electricity. While relying on the grid is convenient, the continued expansion of data centers could put extra stress on existing grid infrastructure causing grid instability. In some regions, data center growth and energy demands could outpace grid infrastructure capability and investment. To address these challenges, some data center operators may deploy on-site power generation.

Photovoltaic (PV) arrays, natural gas generator sets, and fuel cells are common sources of on-site generated power. These sources are also known as distributed energy resources (DER) and may operate connected to the utility or isolated from the utility (known as island operation) as a microgrid. Stationary energy storage may also be incorporated into a microgrid enhancing the ability to operate isolated from the utility.

On-site power generation allows a data center operator to use power from cleaner sources when available, while supplementing energy from other sources when the cleanest source is not sufficient. This feature of on-site generation supports advancement towards sustainability goals while maintaining reliable power service to the data center.

No. 3: Rising focus to achieve higher levels of energy efficiency

Data centers offer vast opportunities for energy efficiency, and the industry has taken full advantage in recent years. Let’s cover two aspects of energy efficiency in a data center.

  • IT infrastructure: Historically, data centers improved energy efficiency of IT infrastructure through higher utilization of individual IT equipment and server virtualization. Going forward, converged infrastructure (CI) and hyper-converged infrastructure (HCI) are expected to lead energy efficiency gains in data centers. Simply put, CI features building blocks made up of storage and compute functionalities physically combined in a turnkey product. Meanwhile, HCI relies on a software to combine compute, storage and networking functionalities. Both technologies, in different ways, deliver a more scalable architecture helping with energy efficiency. Within a data center, to deliver the same computing output, you can afford to have fewer servers, storage and network equipment if you are using one of these technologies.
  • Non-IT infrastructure: Power usage effectiveness (PUE), the ratio of total energy used by the data center to the energy used by computing equipment, is a common indicator of a data center’s energy efficiency. The industry average PUE has improved from 2.5 in 2007 to 1.67 in 2019 4, a clear indicator of shrinking contribution of non-IT infrastructure, heating, cooling, lighting and others, in a data center’s energy consumption. Going forward, advancements in cooling systems will take center stage in energy efficiency gains within non-IT infrastructure. Natural cooling, where cool ambient air or chilled water from nearby resources are used to cool the facility, will impact the geographical locations of data centers. Additionally, an increased prominence of liquid cooling technologies will impact data center cooling system designs. Meanwhile, on the IT infrastructure, the expanding need for IT equipment to operate at higher ambient temperatures will reduce the need for cooling per computing capacity.

It is expected facility and energy professionals leading comprehensive energy efficiency plans covering IT and non-IT infrastructure will stay ahead of their peers in energy efficiency gains.

Sign up below for Energy IQ to receive energy focused insights periodically. To learn more about the data center power solutions Cummins Inc. offers, visit our webpage.

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1 Lima, J. M. (December 12, 2017). Data Centres Of The World Will Consume 1/5 Of Earth’s Power By 2025. Data – Economy. Retrieved from

2 Global data centre energy demand by data centre type. (January 7, 2020). International Energy Agency. Retrieved from

3 Pichai, S. (September 19, 2019). Our biggest renewable energy purchase ever. Google. Retrieved from

4 Lawrence, A. (May 2019). Is PUE actually going UP?. Uptime Institute. Retrieved from

Raise Your Energy IQ

Grow professionally with energy trends and insights delivered to your inbox. Read about energy technologies and trends on our Energy IQ Hub.

Aytek Yuksel - Cummins Inc

Aytek Yuksel

Aytek Yuksel is the Content Marketing Leader for Cummins Inc., with a focus on Power Systems markets. Aytek joined the Company in 2008. Since then, he has worked in several marketing roles and now brings you the learnings from our key markets ranging from industrial to residential markets. Aytek lives in Minneapolis, Minnesota with his wife and two kids.

Energy IQ: Hybrid clouds to edge computing, trends that will shape the data centers industry in this decade

Cummins - Data Center Trends

We take a look at five trends that will influence the future of the data center industry in our latest Energy IQ article. 

If you look back to the last decade and reflect on a few trends that have shaped the data center industry, it is likely you might think about the increase in hyperscale data centers and the rise of cloud. Looking into the decade ahead, the data center industry is still on track to continue its growth pattern. In fact, cloud computing market is estimated to grow by 18% a year within the first three years of the decade 1. Meanwhile the trends that will shape the industry through this growth will be different than the previous decade.

Trends shared in this article are aimed to keep your perspective of the future of data centers fresh as you continue to shape the data center industry. Let’s look at these five trends that will influence the data center industry this decade..

No. 1: Hybrid clouds to increasingly become the top choice for most enterprises

The rise of cloud started in the 2000s and rapidly took off within the world of data centers the following decade. Meanwhile, this decade will be shaped with the rise of hybrid cloud. 

Private and public clouds offer different benefits to the users. Users of private clouds enjoy higher levels of security and customization to fulfill their regulatory needs and unique circumstances. On the other hand, users of public clouds enjoy relatively lower costs and on-demand scalability. Meanwhile, hybrid clouds bring a combination of these benefits with manageable shortcomings. 

Cloud strategies and hybrid clouds for enterprises
Hybrid clouds are increasingly becoming the top choice for enterprises. 

A hybrid cloud is when a company combines the use of a private cloud for mission-critical workloads and a public cloud for less sensitive workloads. Companies using hybrid clouds can still have higher security for mission-critical workloads and leverage lower cost public clouds for less sensitive workloads. They key shortcoming of a hybrid cloud is the compatibility between the public and private clouds, however, this could be effectively managed. 

These benefits make the hybrid cloud the top cloud strategy among enterprises. In fact, 58% of enterprises are pursuing it, in comparison to 51% the year before. The hybrid cloud is expected to continue its rise through this decade.

No. 2: Growth in edge computing, fueled by IoT and enabled by 5G, will complement, not replace, the cloud 

Increased use of Internet of Things (IoT) devices is one of the key drivers behind the expanding need for edge computing. Meanwhile 5G comes to play as one of the technologies that enable edge computing. 

Businesses from healthcare to manufacturing are increasingly using IoT devices, and expect very low latency in their operations. In these cases, it is not acceptable to produce the data, send it thousands of miles away to be processed and receive back the processed data. As 5G adoption speeds up, it will exponentially increase the amount of data generated by IoT devices, thus worsening the latency issues. Interestingly, this is not an issue restricted to businesses, as our homes feature more IoT devices, and more of us are driving autonomous cars, each of us will generate more data and expect it to be processed with low latency. Imagine having a smart bulb and having to wait 5 seconds to turn it on after using the smart light switch or the app on your smart phone.

Edge computing could address this need for improved latency by bringing the computation resources much closer to end users and their IoT devices. This growth in edge computing won’t necessarily replace the cloud, instead the combination of the edge and cloud will result in a more capable digital and physical infrastructure. 

No. 3: Talent shortage will arise in new geographies and existing talent will experience a shift in skills

The first International Data Center Day, powered by 7*24 Exchange International, intentionally aimed to inspire the next generation of talent as the talent gap for data centers continues to widen. Beyond  the sheer growth of the industry, the two trends covered above are driving this expanding talent gap. 

As the need for edge computing increases, new data centers are being built in new geographies to get closer to the end users and their IoT devices, while improving the latency. This creates the need for data center talent in cities and towns that didn’t previously have any significant data center footprint. However, when it comes to the rise of hybrid clouds, the situation is a little different. Operating data centers supporting hybrid clouds require a combination of both software and hardware related skills, as hybrid clouds bring both together. 

On the other hand, the rise of artificial intelligence (AI) will likely help data center operators build smarter data centers where certain tasks are managed by AI, easing the talent shortage to some extent.

Talent shortage, whether it is talent in new geographies or new skills existing talent needs, will shape the coming decade. This will bring opportunities for cloud providers and their enterprise customers to collaborate more closely in cross training talent to expand their skills.

No. 4: Energy efficiency and environmental impact will get increasing attention

While the power usage effectiveness (PUE) of data centers continue to improve from 2.5 in 2007 to 1.67 in 2019 3, signaling increasing efficiency, data centers are still consuming a large amount of energy. In fact, it is estimated data centers collectively consume more energy than the world’s fifth largest economy, the United Kingdom 4
Meanwhile, keep in mind the  world’s energy and electricity are still primarily produced by fossil fuels and 38% of the electricity is from coal, one of the worst offenders in carbon emissions. Between data centers’ high energy consumption and our dependence on fossil fuels, you might not be surprised to hear that data centers generate about 2% of the world’s carbon emissions. 

World's electricity product by source - Cummins
The world's electricity continues to be produced primarily by fossil fuels. 

In addition to carbon emissions, water usage is forecast to get more attention as a part of the broader sustainability umbrella. On the other hand, there is some good news for data centers too. A range of developments ranging from converged technologies to cooling architecture changes are forecast to enable data centers to become more energy efficient. “Energy trends in data centers” brings more details on the energy future of data centers, including a look at carbon offset credits.

No. 5: Security was important and will be important, but for evolving reasons

We have debated whether the list should start with security or end with it. Security was always important for data centers and would be on this list whether we focus on 2000s, 2010s or 2020s.

If you go back a decade ago, regulatory needs kept security top of mind for data center operators. More recently, financial consequences of security breaches became a key driver, and the regulatory aspect became more of a table stake. 

In the decade ahead, two aspects of security will take the center stage. First is the life-threatening aspect of security breaches. Think of the consequences of security breaches in data centers that support the operation of autonomous cars or healthcare IoT applications. Second is the security challenges introduced by edge data centers. Edge data centers will be smaller in size and likely won’t have local personnel, and the industry will need to find solutions to address security in these unmanned sites.

While there seems to be no end to the growth in the data center industry, the profile of growth will change during this decade. Whether it is increasing the adoption of hybrid clouds or the rise of edge computing, it will be an exciting decade for all stakeholders of the industry. Insights shared in this article are aimed to keep your perspective of the future fresh and current as you continue to shape the data center industry.

Sign up below for Energy IQ to receive energy focused insights in markets ranging from data centers and healthcare facilities to schools and manufacturing facilities, and everything  beyond. To learn more about data center power solutions Cummins offers, visit our webpage.

Think your friends and colleagues would like this content? Share on LinkedIn and Facebook.

1 Cloud Computing Market by Service, Deployment Model, Organization Size, Workload, Vertical And Region - Global Forecast to 2023. (February 2019). ReportLinker. Retrieved from
2 Global Cloud Index Projects Cloud Traffic to Represent 95 Percent of Total Data Center Traffic by 2021. (February 2018). Cisco. Retrieved from
3 Lawrence, A. Is PUE actually going UP?. (May 2019). Uptime Institute. Retrieved from
4 Danilak, R. Why Energy Is A Big And Rapidly Growing Problem For Data Centers. (December 2017). Forbes. Retrieved from

Raise Your Energy IQ

Grow professionally with energy trends and insights delivered to your inbox. Read about energy technologies and trends on our Energy IQ Hub.

Aytek Yuksel - Cummins Inc

Aytek Yuksel

Aytek Yuksel is the Content Marketing Leader for Cummins Inc., with a focus on Power Systems markets. Aytek joined the Company in 2008. Since then, he has worked in several marketing roles and now brings you the learnings from our key markets ranging from industrial to residential markets. Aytek lives in Minneapolis, Minnesota with his wife and two kids.

Machine of the Month: Tor Tugboats

Cummins Machine of the Month - March 2020

For our Machine of the Month for March 2020, look no further than this Cummins QSK95-powered tug boat designed by Robert Allan LTD with the ship-building expertise of the Tor Group. 

Large cargo ships traverse the oceans of the world, carrying raw materials and finished goods between ports. Built for speed on the open ocean, these massive ships can take up to five miles to stop. Once these mammoth vessels arrive in port, they need help to maneuver in tight quarters, which is where ship-docking tugs go to work.

2018 saw maritime trade at an all-time high, with volumes reaching 11 billion tons. This meant that more cargo ships were calling on ports around the world, including Takoradi in Ghana. This increase lead the Ghana Ports and Harbour Authority to determine they needed a new fleet of tugboats to safely maneuver ships in and out of their new and expanded ports.

Cummins - Machine of the Month - Ghana Ports and Harbour Authority

To fulfill this need for new tugboats, they called on the world-class design of Robert Allan LTD, the ship-building expertise of the Tor Group, and the reliable power of Cummins.This resulted in the first application of the Cummins QSK95 engine in tugs. 

Each of the new tugs is 32.8 by 12.9-meters with a depth of 5.37 meters. Two Cummins QSK95 diesel marine engines provide the propulsion power, each delivering 3,600 BHP (2,685 kW) at 1,700 RPM for a total of 7,200 BHP per vessel. The Cummins QSK95 engines each power a Rolls Royce US2555 P30 FP azimuth thruster, which provide not only exceptional maneuverability and speeds up to 13 knots but also a minimum of 80-ton bollard pull. 

According to Commander Stephen Abane Ayeo of GPHA: 

“We know Cummins engines. They are durable, economical and strong, and provide good maintenance support. We’ve been a partner for over 30 years.”

Besides propulsion, a pair of Cummins QSB7-powered generators producing 170 Kva kW 136 kWe at 1500 RPM 50 Hz provide electrical power to the tugs and a QSK38 1595 BHP (1190 kW) variable speed at 1800 RPM powers a dedicated fire pump engine. 

Cummins Machine of the Month - Cummins QSK95 Powered Tug Boat

The tugs underwent their sea trials and bollard pull tests in Turkey and arrived in Ghana at the end of January. They are classed for unrestricted navigation by Bureau Veritas with the FiFi1 fire-fighting notation. Tankage for fuel is 180.5 cubic meters, for water 35.8 m3 and for lube oil 2.2 m3. Other applications of the Cummins marine QSK95 engines include crew boats like SEACOR Panther and passenger ferries like the Kilimanjaro VII.

Cummins Office Building

Cummins Inc.

Cummins is a global power leader that designs, manufactures, sells and services diesel and alternative fuel engines from 2.8 to 95 liters, diesel and alternative-fueled electrical generator sets from 2.5 to 3,500 kW, as well as related components and technology. Cummins serves its customers through its network of 600 company-owned and independent distributor facilities and more than 7,200 dealer locations in over 190 countries and territories.

Cummins helps expand a major water treatment plant

An expansion at the Al Ansab wastewater treatment site near the capital Muscat, Oman doubles the capacity, making it the largest water treatment plant in Muscat, and one of the largest facilities in the world to use the flat-sheet-membrane bioreactor process, which produces high-quality reclaimed water and minimizes environmental footprint.

With Cummins global capabilities and footprint, and with Cummins distributor Universal Engineering Services' proven track record for turnkey projects, a 14.5 MVA emergency standby power solution based around five new generator sets completes the new standby system – including the first in the country to be powered by the Cummins QSK95 Series engine.

Read more on the Haya Water case study at 

Adam Sidders Marketing Communications Leader Power Systems

Adam Sidders

Adam Sidders is the Marketing Communications Leader for the Power Systems Business Unit of Cummins Inc. Prior to joining Cummins in 2012 Adam worked in Financial Services for Europe’s largest independently owned insurer as their Marketing and Communications Manager. [email protected]

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