The Gigacorn Challenge: Save 1 Gigatonne CO₂/yr
How smart demand control for water heating and EV charging is one of the clearest paths to climate impact at planetary scale — and the full calculation showing how Elewatt gets there
What Is a Gigacorn?
In climate tech, a 'gigacorn' is a company with the potential to cut CO₂ by 1 gigatonne per year — 1,000 million tonnes. For context: the entire EU emits about 3.4 GT per year. A single sector delivering 1 GT of savings is a civilisation-scale shift.
Buildings are responsible for roughly 10 GT of CO₂ globally each year — about 28% of all emissions. The majority of that comes from one thing: heating. Space heating and water heating together account for over 70% of residential energy use. This is where demand flexibility matters most.
Global building emissions
~10 GT/yr
28% of all global CO₂
Share from heating
>70%
of residential energy is space + water heat
Gigacorn threshold
1 GT/yr
the climate tech benchmark for planetary-scale impact
The Scale: 91 Million Gas Water Heaters in the EU Alone
The EU has approximately 202 million households. Around 91 million of them heat water with natural gas — either a dedicated gas boiler or a combi unit that handles both space and water heating. These devices emit around 560 kg of CO₂ per household per year just for water heating.
Add North America (~100 million gas water heaters), China (~150 million coal/gas homes), and the rest of the developed world, and the global number of fossil-fuelled residential water heating units exceeds 600 million. The opportunity is not niche — it is one of the largest single sources of addressable residential CO₂ on the planet.
EU gas water heaters
91 million
heating water with natural gas today
EU electric vehicles
15 M+
and growing — all with controllable charging
Global fossil heating homes
600 M+
gas, oil, and coal for space or water heat
The Hidden Danger: Electric Can Be Worse Than Gas
Here is the truth most energy transition articles skip: simply replacing a gas water heater with an electric one can increase CO₂ emissions — if the electricity comes from today's average grid.
The EU average grid currently emits around 300 g CO₂/kWh. A gas water heater produces roughly 560 kg CO₂/year. An electric water heater drawing the same energy from the average EU grid produces around 750 kg — 34% more than gas. Without smart scheduling, the transition makes things worse.
CO₂ per water heater per year
natural gas combustion
EU average grid — worse than gas
off-peak renewable hours
Based on 2,500 kWh/yr water heating energy; EU avg grid 300 g CO₂/kWh; Elewatt off-peak 100 g CO₂/kWh.
The Elewatt difference
When an electric water heater runs on off-peak electricity — the hours dominated by wind and solar — effective grid carbon intensity drops to 80–120 g CO₂/kWh. That turns 750 kg/year into ~250 kg/year. Smart scheduling is what makes the energy transition work. The device is the same. The timing is everything.
The Full Calculation: How Elewatt Reaches 1 GT
Stack up every lever — demand shifting for existing electric users, smart water heater replacement, and the renewable enabling effect — and the EU pathway alone reaches ~132 Mt CO₂/year. Scaled globally, the direct savings exceed 500 Mt, and the IEA estimates demand flexibility enables an additional ~500 Mt through renewable integration. The total crosses 1 GT.
| What | EU homes / units | Saved per unit / yr | EU total CO₂/yr |
|---|---|---|---|
| Demand shifting (existing electric homes) | 50M EU homes | 274 kg | ~14 Mt |
| Gas water heater → smart electric | 91M EU units | 310 kg | ~28 Mt |
| Grid enabling (→ more renewables viable) | — | — | ~90 Mt |
| EU Total | 141M+ devices | — | ~132 Mt |
| Scaled globally (×4 addressable market) | 560M+ devices | — | ~530 Mt |
| Total incl. IEA global enabling effect | Global grid | — | ≥1 GT ✓ |
- EU homes / units
- 50M EU homes
- Saved per unit / yr
- 274 kg
- EU total CO₂/yr
- ~14 Mt
- EU homes / units
- 91M EU units
- Saved per unit / yr
- 310 kg
- EU total CO₂/yr
- ~28 Mt
- EU homes / units
- —
- Saved per unit / yr
- —
- EU total CO₂/yr
- ~90 Mt
- EU homes / units
- 141M+ devices
- Saved per unit / yr
- —
- EU total CO₂/yr
- ~132 Mt
- EU homes / units
- 560M+ devices
- Saved per unit / yr
- —
- EU total CO₂/yr
- ~530 Mt
- EU homes / units
- Global grid
- Saved per unit / yr
- —
- EU total CO₂/yr
- ≥1 GT ✓
Assumptions: electric water heater at 100 g CO₂/kWh (Elewatt off-peak); demand shifting saves 250 g/kWh vs peak. Gas water heater baseline 560 kg/yr. Grid enabling and global enabling based on IEA demand flexibility estimates. Sources: Eurostat 2023, Nesta 2021, IEA Buildings 2023, IEA Demand Response 2023.
The global multiplier is approximately 4×: EU represents roughly one-quarter of global addressable residential fossil heating. Applying the same pattern to North America, China, and the rest of the developed world — where the same smart plug + scheduling approach works — yields the full 1 GT potential.
Calculate Your Contribution
See how much CO₂ your water heater or radiator saves each year when scheduled with Elewatt to run during the cheapest, cleanest hours.
Spar-Rechner
Schätzen Sie, wie viel Sie sparen, wenn Ihr Gerät in den günstigsten Stunden läuft.
Nord Pool EE + Elektrilevi-Netz + MwSt. · ct/kWh (Jahresdurchschnitt)
Täglicher Verbrauch
4.0 kWh/Tag
Jahresverbrauch
1460 kWh/Jahr
Ohne Elewatt
300 g CO₂/kWh
438 kg
pro Jahr
Mit Elewatt
100 g CO₂/kWh
146 kg
pro Jahr
CO₂ gespart
Monatlich
24 kg
Jährlich
292 kg
EU-Durchschnitt der Netzintensität: 300 g CO₂/kWh (Ember 2024). Elewatt-Schwachlast (günstigste Stunden, dominiert von Wind/Solar): ~100 g CO₂/kWh. Tatsächliche CO₂-Einsparungen variieren je nach Land und Netzmix.
Why Smart Scheduling Is the Missing Link
Electric water heaters and EV chargers are mature, available, and increasingly affordable. The technology barrier is gone. What remains is software: ensuring these devices run when the electricity is clean.
Water heater · peak hours
Tuesday morning, low wind
Grid running on gas → higher emissions, highest prices of the day
Water heater · Elewatt
2am, high-wind night
Grid 80% wind → near-zero emissions, lowest prices of the day
A water heater running during Tuesday morning peak — when gas plants compensate for low wind — can emit more CO₂ than the gas boiler it replaced. The same water heater running at 2am on a high-wind night emits almost nothing. Same device, different timing, radically different outcome.
As renewable capacity grows, the gap between peak (dirty) and off-peak (clean) electricity widens — and off-peak becomes cheaper too. Elewatt users capture both benefits automatically: lower electricity bills and lower emissions, without changing a single appliance.
Join the Clean Heating Revolution
Connect your water heater, radiator, or EV charger to Elewatt and ensure it only runs when the grid is at its greenest. Free to use.
Sources: Eurostat Energy Consumption in Households 2023; Nesta Gas Boiler CO₂ Analysis 2021; IEA Buildings Report 2023; IEA Net Zero Emissions 2050 Scenario; IEA Demand Response Report 2023.
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