Description
Establish, support and interrupt for 20 years rated currents innormal conditions of circuit characterized by the current 16 A(Ith). (The functional unit is based on the use scenariorecommended by the PCR for the category of the referenceproduct)
Extrapolation Rules
The only difference between the reference product and the push button is a little spring. This ring can be compared with the spring of a pen, so definitely a very small item, under the 5% of the total weight of the product. This is the reason why the extrapolation rule has been considered as 1 in this case. The differences between the different variants are the number of contacts mainly so the energy lost can be kept the same between all the variants, as confirmed with the internal laboratory, who are the owners of the test, conducted to calculate this value. Also, there is no difference in the end-of-life scenario, as they are all managed the same way by the waste manager agents. The packaging system and the disposal keeps the same between variants, so there is no difference between them on the distribution stage.
| Indicator |
Unit |
Total |
Manufacturing |
Distribution |
Installation |
Use |
End of Life |
Use
B1 |
Maintenance
B2 |
Repair
B3 |
Replacement
B4 |
Refurbishment
B5 |
Operational energy use
B6 |
Operational water use
B7 |
| Global warming |
kg.eq.CO2 |
1.17E+1 |
1.17E+1 |
5.66E-3 |
00E+0 |
2.32E-5 |
5.88E-3 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Ozone depletion |
kg.eq.CFC-11 |
1.08E-6 |
1.08E-6 |
1.05E-9 |
00E+0 |
2.82E-12 |
2.77E-10 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Acidification of soil and water |
kg.eq.SO2 |
3.16E-2 |
3.15E-2 |
1.8E-5 |
00E+0 |
9.76E-8 |
5.31E-6 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Water eutrophication |
kg.eq.P04 3- |
1.5E-2 |
1.5E-2 |
4.01E-6 |
00E+0 |
2.57E-8 |
1.66E-5 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Photochemical Ozone formation |
kg.eq.C2H4 |
1.53E-3 |
1.53E-3 |
7.38E-7 |
00E+0 |
4.75E-9 |
2.5E-7 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Depletion of abiotic resources - elements |
kg.eq.Sb |
8.21E-4 |
8.21E-4 |
1.99E-8 |
00E+0 |
2.33E-10 |
5.29E-9 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Depletion of abiotic resources - fossil fuels |
MJ |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Water pollution |
m³ |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Air pollution |
m³ |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Use of renewable primary energy, excluding renewable primary energy resources used as raw materials |
MJ |
1.17E+2 |
1.17E+2 |
1.22E-3 |
00E+0 |
1.22E-4 |
3.67E-4 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Use of renewable primary energy resources used as raw materials |
MJ |
5.66E-2 |
5.66E-2 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Total use of renewable primary energy resources (primary energy and primary energy resources used as raw materials) |
MJ |
1.17E+2 |
1.17E+2 |
1.22E-3 |
00E+0 |
1.22E-4 |
3.67E-4 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Use of non-renewable primary energy, excluding non-renewable primary energy resources used as raw materials |
MJ |
1.95E+2 |
1.95E+2 |
8.64E-2 |
00E+0 |
3.62E-4 |
2.26E-2 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Use of non-renewable primary energy resources used as raw materials |
MJ |
4.09E-1 |
4.09E-1 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Total use of non-renewable primary energy resources (primary energy and primary energy resources used as raw materials) |
MJ |
1.95E+2 |
1.95E+2 |
8.64E-2 |
00E+0 |
3.62E-4 |
2.26E-2 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Use of secondary materials |
kg |
7.94E-4 |
7.94E-4 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Use of renewable secondary fuels |
MJ |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Use of non-renewable secondary fuels |
MJ |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Net use of fresh water |
m³ |
1.5E+1 |
1.5E+1 |
2.6E-4 |
00E+0 |
1.56E-5 |
8.54E-5 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Hazardous waste disposed of |
kg |
6.79E-4 |
6.79E-4 |
2.26E-7 |
00E+0 |
7.22E-10 |
6.34E-8 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Non-hazardous waste disposed of |
kg |
1.15E+0 |
1.14E+0 |
4.45E-3 |
00E+0 |
1.28E-6 |
4.27E-3 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Radioactive waste disposed of |
kg |
6.26E-4 |
6.25E-4 |
5.85E-7 |
00E+0 |
1.04E-9 |
1.51E-7 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Components for re-use |
kg |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Materials for recycling |
kg |
2.79E-2 |
3.86E-3 |
00E+0 |
00E+0 |
00E+0 |
2.4E-2 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Materials for energy recovery |
kg |
1.6E-3 |
2.09E-4 |
00E+0 |
00E+0 |
00E+0 |
1.4E-3 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Exported energy |
MJ by energy vector |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
| Total use of primary energy during the life cycle |
MJ |
3.13E+2 |
3.13E+2 |
8.77E-2 |
00E+0 |
4.84E-4 |
2.29E-2 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |
00E+0 |