Is there an artificial intelligence (AI) data center headed to a community near you sometime soon? At the rate AI data centers are popping up across the country and around the globe, there’s a better than average chance you’re already familiar with the heated debates new data center announcements bring with them.
While local and state governments often welcome new data centers with open arms—and big tax breaks—the residents in nearby communities frequently raise concerns about the natural resources these facilities consume, as well as the impact they have on the environment and utility rates.
The proliferation of AI data centers in recent years has made it somewhat common knowledge that these cutting-edge computing facilities consume enormous amounts of water and electricity. After all, all that computing power working 24/7 generates a lot of heat and components must be kept cool to work at peak efficiency.
Unfortunately, aging electrical grids and shortages of advanced power generation equipment have left many areas struggling to accommodate the demands of new data centers. That’s why manufacturers of such equipment are expanding operations, increasing the need for highly skilled workers with advanced electrical skills.
According to an AL.com article by William Thornton, Hyundai Power Transformers USA recently “announced a $200 million expansion of its Montgomery [Alabama] manufacturing operations,” a move that “will create about 200 jobs and significantly increas[e] the factory’s domestic production capacity for large power transformers.”
In addition to boosting production capacity, the new facility “will be able to manufacture even larger transformer units in the United States. This comes at a particularly crucial time, the company says, as about 70% of the nation’s large power transformers are currently in need of replacement.”
Hyundai Power Transformers USA’s expansion plan underscores the ongoing need for more skilled workers with basic to advanced electrical skills. Unfortunately, the ongoing industrial skills gap issue means that workers with advanced electrical skills remain in high demand with supply lagging behind.
This creates a challenge for industries across the country and around the world. How do companies and schools train the next generation of professionals with the electrical skills they need to succeed in the modern workplace?Top of FormBottom of Form
A thorough review of training systems is a great place to start. Do employees and students have access to hands-on training with actual components they’ll encounter on the job? If not, partnering with established companies to provide industrial-quality training systems that will stand the test of time will help ensure a competent workforce.
Be sure to check out DAC Worldwide’s variety of hands-on electrical training systems that feature the real-world components workers will encounter in the field. For example, companies in the power generation space could benefit from DAC Worldwide trainers focused on the skills their employees need, such as:
- Transformer Wiring Training System (408-000): a realistic training device that replicates the conditions and circumstances that an electrical worker encounters when making common power transformer connections in the field and industry. This self-contained, tabletop training system provides a safe, inexpensive, yet realistic alternative to paper-based learning without the danger of full-voltage field experience.
- Transformer Connections Training System (491-000): replicates the conditions and circumstances that a utility worker encounters when making common transformer connections in the field. Using this trainer, learners will explore the skills that an operator must master to confidently operate modern generating equipment, such as the paralleling of generators and connecting to a larger power grid.
- Electrical Generation Fundamentals Training System (490-000): represents a true simulator depicting multiple power plants on a grid. The unit basically acts as the control center for a generating station and simulates four separate generating units. The system demonstrates the principles of generator operation and represents the relationships that an operator must master to confidently operate generators.
