Turnkey Energy Independence: How “Dalgakiran Compressor Ukraine” Created a Smart Uninterruptible Power Supply System for a Hospital
In the healthcare sector, a stable power supply is not merely a matter of comfort or the uninterrupted flow of business processes, but a critically important safety factor on which the lives of patients in intensive care units and operating rooms directly depend. Today’s challenges and the risks posed by power outages are forcing medical facilities to seek comprehensive energy solutions capable of guaranteeing 100% autonomy under any conditions.
The company “Dalgakiran Compressor Ukraine” successfully implemented a large-scale “Turnkey Hospital Energy Independence” project, ensuring the complete modernization of the power grid and the automation of the medical facility’s power supply.
An Inside Look: How did the engineers manage to integrate four energy sources and completely redesign the electrical panels across the hospital’s three floors? Watch a detailed video tour of the completed facility, where we demonstrate each component of the system in action:
Smart Ecosystem: 4 Power Generation Sources in a Single System
The main challenge and uniqueness of this project lay not simply in installing the equipment, but in making a complex of technologies—each distinct in nature—function as a single, fail-safe system. Dalgakiran’s specialists designed a smart hybrid grid that dynamically balances between four sources:
- The central city power grid.
- On-site solar generation.
- Industrial energy storage system (ESS).
- Backup diesel generation.
The system automatically analyzes priorities, optimizes energy consumption, and ensures that the hospital will not lose power even in the event of a complete failure of the external power supply.
The System’s Technical Core: Specifications and Components
Cutting-edge technological solutions formed the foundation for building this autonomous energy island:
- Deye 80 kW hybrid inverter and a 200 kWh battery bank: this is the heart of the industrial energy storage system. It stores excess electricity and ensures instantaneous, seamless switching between power sources—the grid, solar, and the generator (switchover time is measured in milliseconds, which is critical for sensitive medical equipment).
- 30 kW hospital solar power plant (SPP): Installed on the building’s roof. During the day, it directly powers the facility’s internal loads while simultaneously charging the battery units, delivering real energy savings.
- 72 kW diesel generator: Our powerful “heavy artillery.” It serves as the last line of defense. If the city grid is down for an extended period and the batteries have discharged to a critical minimum, the smart system automatically starts the generator to power the facility and recharge the batteries.
Infrastructure Modernization and Unprecedented Safety
Installing generators and inverters is ineffective if a building’s internal electrical systems are outdated. Therefore, engineers carried out a complete modernization of the power supply and distribution equipment (PSDE), which became the foundation for the safety of the entire facility.
4 Priority Lines and Mechanical Protection
To ensure maximum fault tolerance, a system of four independent power supply lines from the city with automatic prioritization was implemented. Power flows are distributed and controlled automatically, but reinforced concrete manual protection is provided in case of emergencies or maintenance situations.
Special attention was paid to reliability: a mechanical bypass was implemented in the switchgear. This is a special safety system that allows the engineer on duty to manually switch the facility’s power supply to any of the city lines, the energy storage system, or the diesel generator—bypassing the automated system—in the event of any force majeure circumstances. Our video shows in detail exactly how the mechanical bypass unit is implemented and how the cable lines are routed.
Online Monitoring and Dispatching: 24/7 Control
A modern alternative power supply for a hospital is impossible without digital control.
The implemented online power grid monitoring system integrates all components (solar power plant, inverters, batteries, generator, and input panels on three floors) into a single, user-friendly interface.
As a result, staff and engineers gain:
- Real-time monitoring of all parameters (battery charge level, current solar generation, load by floor) directly from a smartphone or tablet. (Watch the video to see the monitoring system interface and how easy it is to manage the ecosystem.)
- In-depth data analytics for optimizing consumption and redistributing power.
- Instant push notifications about any deviations from normal operation, a switch to backup power, or the automatic start-up of a diesel generator.
Results and Benefits for the Customer
The turnkey project implementation by “Dalgakiran Compressor Ukraine” achieved the following results:
- Guaranteed uninterrupted power supply to intensive care and operating rooms without the risk of even a second-long power outage.
- Significant reduction in costs for electricity bills thanks to the efficient use of solar power generation and energy storage during off-peak hours.
- A fully autonomous cycle of the facility’s operations during prolonged city-wide power outages.
Dalgakiran’s philosophy of a comprehensive approach is that we don’t just supply equipment—we create reliable, integrated energy solutions that run like clockwork.
Looking for an energy security solution for your facility?
Whether you need to modernize a large medical facility, an industrial plant, or a critical infrastructure site, the “Dalgakiran Compressor Ukraine” team is ready to implement projects of any complexity—from audit to commissioning and round-the-clock maintenance.
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