
Healthcare sub-sector
Hospital-grade power. No gaps. No excuses.
Referral hospitals and specialist facilities operate complex, high-demand electrical environments. Our solar-plus-storage systems are engineered for clinical-grade continuity — ring-fenced critical loads, zero-gap changeover, and long-term O&M accountability.
9+
Hospital installations
<20 ms
Battery changeover time
3,923 kWh
Battery storage deployed
5 yr
Max O&M contract term
The challenge
What hospitals face with power in Uganda.
Hospital-grade power requires instantaneous changeover — no gap during grid-to-battery or grid-to-genset transitions
Critical loads (ICU, theatres, refrigeration) must be ring-fenced and protected even when partial load shedding occurs
Large, complex facilities have diverse load profiles that require 7–30 day monitoring before system sizing
Equipment voltage sensitivity — medical devices require clean, stable power without spikes or sags
Long-term budget pressure — energy costs represent a significant proportion of hospital operating expenditure
What we deliver
Engineering-grade systems for clinical environments.
Zero-gap critical load continuity
Battery changeover in under 20 milliseconds. No manual switching. No power gap during grid transitions or generator start.
Critical load ring-fencing
ICU, surgical theatres, vaccine refrigeration, and emergency lighting on a protected circuit — shed non-critical loads automatically during capacity constraints.
Load profiling before system design
7–30 days of SCADA-level data logging across all circuits before we specify anything. Your system is sized to your actual load profile.
Grid, genset, and battery integration
We design around your existing backup infrastructure. Solar and battery become primary supply; your generator becomes last-resort backup.
Voltage quality and power conditioning
Inverter-integrated power quality management to protect sensitive medical equipment from sags, surges, and harmonics.
Long-term O&M contracts
We remain accountable after commissioning. Quarterly preventive maintenance, remote monitoring, and emergency response within 48 hours.
Project references
Hospital installations across Uganda.

Corsu Hospital
100 kWp PV + 120 kWh Li-Ion battery
Entebbe, Uganda
Full solar-plus-storage system for a major rehabilitation hospital. Battery provides zero-gap continuity for ICU, surgical theatres, and medical refrigeration. System is ring-fenced around critical loads with automatic load shedding for non-critical circuits.

Lubaga Hospital
72 kWp PV + Li-Ion battery emergency backup
Kampala, Uganda
Solar PV with lithium-ion battery covering critical loads during outages at one of Kampala's major referral hospitals. System integrated with existing backup power infrastructure for layered resilience.

Nagalama Hospital
Hybrid PV + battery + genset integration
Mukono, Uganda
Three-source hybrid system combining solar PV, Li-Ion battery storage, and generator integration for a regional hospital. Designed for maximum resilience across all grid scenarios.

Buluba Hospital
Solar PV + battery backup
Eastern Uganda
Solar PV and battery system for a specialist leprosy and rehabilitation hospital in eastern Uganda. System powers wards, outpatient facilities, and administration — engineered for a weak-grid environment.
Assess your hospital's energy requirements.
We start with 7–30 days of load monitoring. The system design follows the data, not a catalogue assumption.
