WBS Power Develops 3.2 GW Energy Infrastructure for Hyperscale Data Centers

WBS Power Develops Major Energy Infrastructure for Data Centers

In a significant move towards bolstering the digital infrastructure in Europe, WBS Power is set to construct a hyperscale data center campus in Lublewo, located in the Choczewo municipality of Poland's Pomerania region. The ambitious project aims to deliver a staggering 3.2 GW energy capacity, positioning itself as the largest of its kind in Poland and among the most substantial in Europe. This endeavor marks a strategic shift for WBS Power, as they step firmly into the hyperscale data center sector, emphasizing their commitment to providing robust energy infrastructure necessary for the advancement of artificial intelligence (AI) technologies.

The new facility, aptly named the Baltic Data Center Campus, is more than just a data hub; it is a vital infrastructure that supports next-generation technologies such as high-performance computing (HPC) and cloud services. According to WBS Power's CEO, Maciej Marcjanik, securing the grid connection for the entire capacity of 3.2 GW has been a critical step in moving forward with the project. "This will be the largest facility of its kind in Poland and one of the largest in Europe," Marcjanik stated confidently.

Strategic Growth in Energy Infrastructure

Hubert Bojdo, the CFO at WBS Power, explained that this initiative is a natural progression in their growth strategy. It harnesses years of expertise and market knowledge with the objective of building a solid infrastructure that will support the global digital transformation era. The groundwork for this new campus is extensive and has already taken months of planning, which included investment conception, optimal site selection, and land acquisition.

The chosen site is strategically located to allow for flexible integration of various technological configurations while ensuring sufficient energy access. The construction of the campus will occur in four phases, each expected to have a capacity of 800 MW. Every phase will be equipped with dedicated energy infrastructure specifically designed for AI workloads. Moreover, it will include integration with renewable energy sources and battery energy storage systems (BESS), thus ensuring compliance with the highest standards of environmental, social, and governance (ESG) practices, energy efficiency, and energy security.

Preparing for the Future

As the demand for hyperscale data centers grows, driven by the rapid progression in AI technologies, it becomes increasingly essential to have advanced infrastructure and reliable access to vast energy resources. Marcjanik pointed out that the seamless incorporation of renewable energy together with energy storage solutions with digital infrastructure will play a pivotal role in ensuring competitiveness for next-generation hyperscale projects.

Situated near one of the largest electrical substations in Poland, the Baltic Data Center Campus plans to source its power from conventional sources, supplemented by renewable energy. In the long term, the inclusion of nuclear power is also anticipated. Bojdo elaborated on the need for future-proofing the infrastructure: "The digital revolution demands infrastructure at a wholly new scale. We have carefully selected the location to ensure substantial energy capacity, a diversified energy matrix, and a reliable long-term supply supported by future nuclear generation."

But WBS Power's ambitions do not end in Poland. The company is also advancing a 500 MW data center project in Finsterwalde, Germany, designed to address the rising demand for efficiently integrated hyperscale data centers within the German energy market. With over 15 years of experience in developing energy infrastructures—including renewable projects and BESS—the company is well-positioned to emerge as a key player in shaping the European AI infrastructure landscape.

A Significant Contribution to Europe's Energy Transition

By spearheading the Baltic Data Center Campus, WBS Power aims to contribute significantly to the ongoing energy and digital transformation across Europe. Marcjanik concluded, "We take pride in the fact that a Polish company can contribute to Europe’s energy and digital transformation, enhancing not only its economic competitiveness but also its technological sovereignty." The project's preparatory work is expected to wrap up by the end of 2027, with the first data center set to begin operations around 2028-2029.

To summarize, WBS Power's latest initiative underscores a critical shift in how energy infrastructure is being developed to meet the challenges of modern computing needs, particularly in the realm of AI and high-capacity data processing.