The Grid’s Hidden Capacity: How Repurposing Old Power Plants Could Solve the Energy Crunch

Demand for electricity in the United States is surging, driven by everything from a booming tech sector to increased adoption of electric vehicles. And with that demand comes a price hike. While building new power plants seems like the obvious solution, the reality is a years-long, multi-billion dollar undertaking. But what if the key to unlocking more power wasn’t about building new, but about smartly repurposing what already exists? Talgat Kopzhanov, an asset manager at Middle River Power, believes he’s found a faster, more affordable answer: the generator replacement interconnection process.

Unlocking Dormant Interconnection Rights

Kopzhanov’s approach centers around a surprisingly overlooked fact: every power plant, even those retired or operating below capacity, possesses valuable “interconnection rights.” These rights grant permission to connect to the high-voltage transmission system – a crucial, and often bottlenecked, step for any new energy source. “Every power plant has its own interconnection rights,” Kopzhanov explains, “but, amazingly, most are not fully utilizing them.” Instead of navigating the arduous process of securing new interconnection approvals – a process that can take up to seven years and has a meager 5% approval rate – Kopzhanov’s team builds new renewable energy resources directly onto existing infrastructure. It’s essentially “colocating” a new power plant within the footprint of an old one.

From Coal to Solar: The Sherco Solar Project

This isn’t just a theoretical concept. The Sherco Solar project in Minnesota exemplifies the potential. Replacing a retiring coal plant, Sherco now boasts approximately 720 megawatts of solar-powered generation, making it the largest solar facility in the region. The first 460 MW is slated to come online soon, demonstrating the speed at which this approach can deliver clean energy. Similarly, in California, a battery storage facility was recently added to the Hanford Hybrid Energy Center, leveraging existing interconnection capacity to reduce greenhouse gas emissions during peak demand. These projects highlight the versatility of the technique, applicable to both solar and energy storage solutions.

The AI Demand and the Interconnection Bottleneck

The urgency for solutions like Kopzhanov’s is amplified by the explosive growth of artificial intelligence. AI data centers are ravenous consumers of electricity, driving up demand and straining the grid. While investment in new power infrastructure is substantial, the interconnection process remains a critical choke point. Overcoming these bottlenecks isn’t just about speed; it’s about cost. By bypassing lengthy upgrade requirements and streamlining approvals, the generator replacement interconnection process significantly lowers project expenses.

A Kazakhstan-Born Vision for a Sustainable Future

Kopzhanov’s innovative thinking isn’t accidental. Growing up in Taraz, Kazakhstan, surrounded by a family deeply involved in the power industry, he developed a lifelong fascination with energy systems. His early exposure to the Soviet-era emphasis on power infrastructure development instilled a practical understanding of the challenges and opportunities within the sector. This foundation, combined with degrees from Purdue University and Indiana University’s Kelley School of Business, has equipped him with both the technical expertise and business acumen to champion this transformative approach.

Beyond Individual Projects: A Systemic Shift

Kopzhanov actively shares his knowledge through webinars like “Unlocking Surplus Interconnection Service” hosted by the IEEE Power & Energy Society, making this technique accessible to a wider audience. His involvement with the IEEE, including his role as founding chair of the Chicago chapter, underscores his commitment to industry collaboration and knowledge sharing. But the potential extends beyond individual projects and educational initiatives. This approach represents a systemic shift in how we think about grid infrastructure.

The future of energy isn’t solely about building bigger and newer; it’s about maximizing the value of what we already have. By strategically repurposing existing power plant sites, we can accelerate the transition to a cleaner, more reliable, and more affordable energy future. What are your predictions for the role of repurposed infrastructure in meeting growing energy demands? Share your thoughts in the comments below!