Greencube 60F
Modular house
A+
-892kg CO2/t
ID 16ab
This house has a net carbon footprint of -14 626 kg of CO2, taking into account both the emitted CO2 from fossil fuel use as well as the captured CO2 during the photosynthesis of the wood material.
No. of floors
1
Height of house
3 m
Bruto floor area
59.9 m2
Time to build
400.0 h
| Your house | |
|---|---|
| 16.4 | t is the weight of the house |
| -14,626.2 | kg of CO2 per whole house |
| 12,095.0 | kg of CO2 (emitted) |
| 26,721.2 | kg of CO2 (sequestered) |
| -892.3 | kg of CO2 per tonne |
-892 kg CO2/t
689 kg CO2/t
| Brick house | |
|---|---|
| 43.6 | t is the weight of an equivalent brick house |
| 30,056.2 | kg of CO2 per whole house |
| 30,056.2 | kg of CO2 (emitted) |
| 0.0 | kg of CO2 (sequestered) |
| 689.3 | kg of CO2 per tonne |
Your product’s class is A+ with -892 kgCO2 per tonne.
Hover over the classes to find out what they mean.
-892 kg CO2
"A+" class houses are carbon negative and sequester more CO2 within their wood fibre than is released during the production of the house. Loghouses belong to this class.
A-class houses are carbon neutral or carbon positive up to 500 kgCO2/t. Most wooden houses fall in this category.
B-class emissions range from 500 to 1000 kgCO2/t. A simple brick or concrete house would fall in this category.
C-class emissions range from 1000 to 1500 kgCO2/t. Most complex brick or concrete houses would fall in this category.
D-class emissions range from 1500 to 2000 kgCO2/t. Brick or concrete houses of this class contain a lot of glass, insulation and metal.
E-class emissions range from 2000 to 2500 kgCO2/t. A house built of plastic Lego bricks would fall in this category.
F-class emissions remain above 2500 kgCO2/t. A house built of stainless steel would fall in this category.
