Grid modernization is essential due to the rapidly growing population and increasing energy demands, which intensify the strain on our aging electrical infrastructure. As electrification efforts expand to meet these demands, especially with the shift towards sustainable and renewable energy sources, the existing grid struggles to keep up, risking frequent outages and inefficiencies. While modernization itself has its own challenges, modernizing the grid can help to ensure a reliable, resilient, and sustainable energy supply that can support both current and future needs.
The growing reliance on electricity across industries, our increased dependency on electrical appliances and processes as well as the transition to EV’s foreshadows the need for a more resilient and effective grid infrastructure. Besides utilities and household electricity consumption, the growing industrial energy needs also increased substantially over the past decade. Meanwhile the emergence of AI technologies also puts a stress on our aging electric grid systems. Data centers have already proved to be one of the most avid energy consumers and according to Goldman and Sachs AI is expected to drive 160% increase in data center power demand, which added to the existing trend, further accelerates the need for modernizing and updating our existing electric systems.
The Challenge of the Aging Grid Infrastructure
Aging electrical infrastructure poses several significant risks, which can jeopardize both grid reliability and public safety. Upgrading aging systems will not only improve reliability for everyday operations but also enhance security against evolving threats. Additionally, a more advanced grid can offer increased affordability, helping to sustain economic prosperity while also promoting flexibility in managing the uncertainty of future energy demands and diverse energy sources. Furthermore, transitioning to energy-efficient and renewable resources will drive sustainability across the energy sector.
However, the benefits of modernizing the grid extend beyond just technological advancements. The workforce, which currently shoulders the burden of maintaining outdated systems through frequent repairs and emergency interventions, will also benefit. Modern infrastructure can reduce the physical and mental strain on electrical workers and grid operators, improving working conditions and overall job satisfaction, especially as they navigate the challenges posed by extreme weather events.
New Technologies and a Modern Grid – What Does that Mean for the Workforce?
However, maintaining an aging grid is only one part of the picture. To secure long-term career growth, electricians must engage with modern technologies. The future lies in modernizing the power grid with smart grid technologies, which leverage AI, IoT, and renewable energy integration. Smart grids use advanced digital systems to improve energy distribution, increase efficiency, and reduce energy waste, therefore, for people working around electrical systems, gaining experience with these smart grid technologies will be crucial to keeping pace with the evolving energy landscape and ensuring career sustainability in the long term.
As the grid modernizes and integrates new technologies such as smart grids and renewable energy sources, there is a growing skills gap within the workforce. Workforce who are primarily trained in maintaining older systems may struggle to keep pace with the shift towards advanced, digitalized infrastructure. Without proper training and upskilling, many workers risk being left behind, jeopardizing their long-term job security as the industry evolves.
Training Solutions for the Electrical Supply Industry (ESI) at RelyOn
Keeping up with the changing landscape of the energy supply industry is not a small feat, and without proper training and education it is almost impossible to tackle the challenges either in the short or the long run. At RelyOn, we offer comprehensive electrical training programs designed to enhance safety and technical knowledge for professionals in both electrical and non-electrical roles. Our training covers key areas such as high, medium and low voltage (HV/MV/LV) systems, arc flash awareness, and working safely in hazardous environments. Practical instruction is vital for those working in renewable energy, power grids, and industrial facilities.
To enhance the effectiveness of our on-site training, RelyOn developed a wide range of eLearning courses as well, to address the spectrum of competencies required for electrical skills and safety. Collaborating with experienced learning and design professionals, we develop engaging and motivating learning solutions that can function as stand-alone eLearning modules or be integrated into more complex blended learning programs.
Modernize and Develop New Skills with Adaptive Learning
Recognizing that learning and skills acquisition will vary for each Learner, RelyOn champions in integrating and developing AI supported eLearning courses to complement the high-quality on-site trainings. This novel approach cuts training time while boosting proficiency and retention through intelligently spaced repetitions. It addresses unconscious incompetence, improving both engagement and learner confidence while reducing frustration.
The platform also provides rich learning analytics and data to support instructors, making it ideal for blended learning programs. By focusing instructional efforts and guiding learners, the system enhances the overall training experience, allowing for personalized development and deeper learning outcomes. Our blended approach combines face-to-face classroom teaching, practical exercises in our Facilities and at client sites, with powerful digital learning and assessment tools.
Conclusion
The long-term transition trends of utility grid modernization, renewable energy expansion, electrification, and digitization have led to a global shortage of skilled electrical workers. In response to this demand, RelyOn has built an international team of experts in electrical systems, safety, and education, with extensive experience across multiple countries. Our expertise spans offshore and onshore renewable energy projects, generation, transmission and distribution power grids, data center operations, as well as large-scale industrial and process facilities to support the Electrical Supply Industry during this time of rapid and encompassing change.
The global expansion of our electrical services allows us to support our clients in developing and maintaining a competent workforce, operating with safe and consistent work practices, and meeting regulatory compliance and audit requirements. We are dedicated to working alongside industry actors to help in solving the most crucial challenges of the energy sector for a more sustainable and safe future.