Solving Data Center Development Challenges

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April 21, 2026

By Rob Macchi, Vice President AEC Construction, Channel & MTDC, Worldwide Accounts, Wesco

New data center development is booming globally, with nearly 100GW of new capacity expected to come online by 2030. AI is fueling demand for new, large-scale data centers and owners along with developers are building huge campuses to meet the demand for both AI and cloud computing workloads.

Data center developers face an array of challenges that can derail projects, not the least of which is the availability of adequate and reliable power delivery. Increasingly, data centers are looking to remote and rural markets for multi-gigawatt data center builds, but that introduces a new set of issues. Supply chain constraints and disruptions can also create headaches for developers, and many struggle to find the skilled workers they need in every market.

These challenges cause project delays and increase costs. Developers need strong partnerships to navigate this complexity and minimize financial risk.

1. Power Requirements

Beyond site selection, electrical power is the most critical requirement for any data center, and it’s increasingly hard to come by. Major grid operators such as PJM Interconnection (Mid-Atlantic/East Coast) and ERCOT (Texas) are saying they lack the capacity for more data centers. Demand outpaces the construction of new power plants and transmission lines.

Many data center developers look to secondary or rural markets to find adequate power. However, even grid operator Southwest Power Pool in the Great Plains is looking to reduce demand due to increasing loads. 

Watchdogs are suggesting that data centers must build their own power generation, and a growing number are doing so. In a 2025 survey by Bloom Energy, 38 percent of data centers anticipate incorporating on-site power by 2030, with 27 percent aiming for full on-site power.

2. Supply Chain Challenges

Data center developers also face significant supply chain challenges. Power infrastructure is the biggest bottleneck, with substations and grid upgrades often taking longer than the data center build itself. Critical equipment such as generators and UPS systems often have 12 to 18-month waits.

Significant constraints persist in semiconductor availability due to massive demand and complex manufacturing with long lead times. Because semiconductor fabrication requires immense investment in highly specialized equipment, a few companies dominate the industry. Most advanced chips today are made outside North America.

Trade restrictions, export controls and geopolitical instability have disrupted supply chains, leading to a push for domestic production. However, semiconductor fabrication does not ramp up overnight. Plants funded by the 2022 CHIPS Act, for example, won’t come online until 2028.

3. Remote and Rural Markets

Data center developers often turn to remote and rural markets to take advantage of abundant, inexpensive land and gain access to power resources. Local governments may even lure developers with tax incentives, hoping to spur economic activity and create jobs.

Increasingly, however, developers are getting pushback from these communities. Projects often face political and public opposition over concerns about land use, noise pollution, rising electric bills and strain on water resources. Some states have proposed legislation requiring data centers to pay their fair share of infrastructure upgrades and even setting renewable energy goals.

Local governments may be unfamiliar with the unique requirements of data center projects, leading to zoning, permitting or environmental issues that are tricky to navigate. Remote locations can also exacerbate logistics and supply chain challenges.

4. Skilled Talent Shortages

Data center developers need access to specialized technical expertise for constructing, commissioning and operating data centers. The Uptime Institute projected a need for more than 325,000 new full-time data center jobs worldwide by the end of 2025.

The talent gap goes beyond the persistent shortage of IT workers. The real talent war is currently for electricians, plumbers, welders and HVAC technicians. According to the Bureau of Labor Statistics, demand for engineers specializing in power-distribution systems is rising at double the average rate for all occupations, with a projected 7 percent growth through 2033. 

Hyperscalers and the AI Neo Cloud operators are increasingly building in remote or rural areas where local skilled labor is nonexistent, requiring extensive efforts to mobilize enough skilled workers. Developers are forced to import workers and incur higher recruitment costs.

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