The Energy Profile, Broken Down
Innovick's tested energy output tells a single story across a full day: power rises with the heat, peaks in the early afternoon, and settles back overnight. Below, that story is broken into its parts — the storyboard, the live data curve, and the tested metrics — with each section and figure explained.
The Day at a Glance
Before the breakdown, here is the whole day in one readout: the tested peak, the baseline it climbs from, and the live shape of the curve. The sections that follow take it apart one piece at a time.
Tested Peak Output
3.4kWh
Reached at 1 PM, when the temperature gradient is widest.
One Day in Five Frames
The storyboard compresses a full 24-hour cycle into a five-second animation — one frame per second. Each frame captures a moment in the day's energy curve. Here is what each frame shows and why it matters.
Starting Point
0.3 kWh · 58.5°F
The day opens at the baseline. With cool ambient temperature and little heat to recover, output sits at its overnight floor of 0.3 kWh.
Begins to Rise
Energy builds
As the surroundings warm through the morning, the temperature gradient grows and the curve climbs steadily — more heat to recover means more power.
Peak Performance
3.4 kWh · 105°F (Tested)
The early-afternoon high point. With the largest temperature difference of the day, the system hits its tested maximum of 3.4 kWh.
Tapering Down
Output eases off
Past the peak, the surroundings cool and the gradient narrows. Output declines gradually through the afternoon and evening — a smooth, predictable descent.
Returns to Baseline
0.3 kWh by midnight
The cycle closes where it began. Output returns to 0.3 kWh by midnight, ready to repeat — a continuous, self-resetting profile.
24-Hour Energy Output
The same day plotted as a continuous curve of energy output (kWh) against the hour of day. It traces a clean bell shape: a flat overnight floor, a steep morning climb, a sharp 1 PM peak, and a mirror-image decline. Hover any point to read its exact value.
Real-Time Energy Production Profile
LiveHow to read it: the flat tails on either side are the overnight baseline (0.3 kWh). The steep section from roughly 07:00 onward is the morning ramp as ambient heat builds. The white point at 1 PM marks the tested peak of 3.4 kWh, after which the curve mirrors its climb on the way back down to baseline by midnight.
The Numbers, Explained
Five tested figures summarize the curve. Each card states the metric and explains what it means for real-world deployment.
Min Output
0.3 kWh
at 00:00 & 24:00 · 58.5°F
The overnight floor. Even at its lowest, the system keeps producing — there is no off state, only a baseline.
Max Output
3.4 kWh
at 13:00 (1 PM) · 105°F (Tested)
The tested daily peak, reached when the temperature gradient is largest. This is the headline performance figure.
Daytime Production
07:00–17:00
High-performance window
The ten-hour stretch where output stays high — the band that does most of the day's useful work.
Duration
24 Hours
Continuous profile
Production never stops. The profile runs around the clock and resets cleanly each midnight.
Technology
Innovick
Energy recovery system
The recovery technology behind the curve — tested, reliable, and efficient by design.
| Hour | Output (kWh) | Phase |
|---|---|---|
| 00:00 | 0.3 | Baseline |
| 02:00 | 0.2 | Baseline |
| 04:00 | 0.3 | Baseline |
| 06:00 | 0.5 | Morning ramp |
| 08:00 | 1.0 | Morning ramp |
| 10:00 | 1.9 | Climb |
| 12:00 | 3.0 | Approaching peak |
| 13:00 | 3.4 | Peak (tested) |
| 14:00 | 3.2 | Decline |
| 16:00 | 2.4 | Decline |
| 18:00 | 1.4 | Evening fall |
| 20:00 | 0.7 | Evening fall |
| 22:00 | 0.4 | Return to baseline |
| 24:00 | 0.3 | Baseline |