This project integrates a highly resilient and energy-efficient infrastructure centered around a 60 MW Combined Cycle Power Plant (CCPP), serving as the primary energy source for a multi-use facility that includes a blood bank, temperature-controlled storage facility, and mission-critical data center operations. The CCPP supplies reliable electricity to all facility components.
 

The power plant operates in parallel with the existing utility grid infrastructure, ensuring continuous operation and providing full redundancy in the event of grid disturbances or outages. This configuration significantly enhances energy security and operational reliability, which is particularly critical for blood storage, cold-chain preservation, and data center uptime requirements.

The facility employs advanced combined-cycle technology to maximize fuel efficiency and minimize environmental impact. The power generation system consists of high-efficiency gas turbines coupled with heat recovery steam generators (HRSGs), which capture waste heat from the turbine exhaust to produce additional power through a steam turbine cycle. This process substantially increases overall plant efficiency compared to conventional power generation methods while reducing fuel consumption and greenhouse gas emissions.
 

The integrated design enables the facility to support stringent temperature-control requirements for blood products and cold storage operations, while providing the uninterrupted power quality and reliability demanded by modern data centers. Advanced monitoring, automation, and energy management systems optimize performance across all facility assets, ensuring efficient operation under varying load conditions.

This project delivers significant long-term benefits, including reduced energy costs, enhanced operational resilience, lower carbon emissions, and improved sustainability performance. By combining critical healthcare infrastructure, cold-chain logistics, digital infrastructure, and high-efficiency power generation within a single integrated campus, the facility establishes a future-ready model for reliable, sustainable, and economically efficient operations.