equipment id: 42, Construction phase
pa 3110 kg
4012 * 3110 = 12477320 g of CO2
19.3 * 3110 = 60023 g of CH4
7.42 * 3110 = 23076.2 g of N2O
All 3 factors: 12477320 * 1 (CO2) + 60023 * 25 (CH4) + 23076.2 * 298 (N2O) = 20854602.6 g of CO2 equivalent
kg of pa impact is 6.71 kg of CO2eq

excavation 23.4 m²
432.04 * 23.4 = 10109.736 g of CO2
0.0230955 * 23.4 = 0.5404347 g of CH4
0.00110858 * 23.4 = 0.025940772 g of N2O
All 3 factors: 10109.736 * 1 (CO2) + 0.5404347 * 25 (CH4) + 0.025940772 * 298 (N2O) = 10130.977217556 g of CO2 equivalent
m² of excavation impact is 0.43 kg of CO2eq

Climate change impact, all construction materials summed
20854602.6 (pa) + 10130.977217556 (excavation) = 20864733.577218 g of CO2 equivalent
20864.733577218kg CO2eq / 27 year = 772.77 kg CO2eq per year
======================================================================


equipment id: 42, Construction phase
pa 3110 kg
0.0401935 * 3110 = 125.001785 g of N
0.319091 * 3110 = 992.37301 g of P
10.94 * 3110 = 34023.4 g of NOx
0.09 * 3110 = 279.9 g of NH3
All 4 factors: 125.001785 * 0.42 (N) + 992.37301 * 3.06 (P) + 34023.4 * 0.015 (NOx) + 279.9 * 0.04 (NH3) = 3610.7 g of PO4 equivalent
kg of pa impact is 1.1609967845659 g of PO4eq

excavation 23.4 m²
0.00030794 * 23.4 = 0.007205796 g of N
0 * 23.4 = 0 g of P
0.508101 * 23.4 = 11.8895634 g of NOx
0 * 23.4 = 0 g of NH3
All 4 factors: 0.007205796 * 0.42 (N) + 0 * 3.06 (P) + 11.8895634 * 0.015 (NOx) + 0 * 0.04 (NH3) = 0.2 g of PO4 equivalent
m² of excavation impact is 0.0085470085470085 g of PO4eq

Aquatic eutrophication impact, all construction materials summed
3610.7 (pa) + 0.2 (excavation) = 3610.9 g of PO4 equivalent
3.6109kg PO4eq / 27 year = 0.1337 kg PO4eq per year
======================================================================


equipment id: 42, Usage phase, depending on number of persons
removed_bod_impact 17.532 kg of BOD treatment per person per year
0 * 17.532 = 0 g of CO2
13.1 * 17.532 = 229.6692 g of CH4
0 * 17.532 = 0 g of N2O
All 3 factors: 0 * 1 (CO2) + 229.6692 * 25 (CH4) + 0 * 298 (N2O) = 5741.73 g of CO2 equivalent
1 person yearly bod impact is 5741.73 g of CO2eq

removed_n_impact 4.90896 kg of Neutrogen treatment per person per year
0 * 4.90896 = 0 g of CO2
0 * 4.90896 = 0 g of CH4
16.2 * 4.90896 = 79.525152 g of N2O
All 3 factors: 0 * 1 (CO2) + 0 * 25 (CH4) + 79.525152 * 298 (N2O) = 23698.495296 g of CO2 equivalent
1 person yearly n_removed impact is 23698.4953 g of CO2eq

not_removed_n_impact 0.20454 kg of Neutrogen left untreated per person per year
0 * 0.20454 = 0 g of CO2
0 * 0.20454 = 0 g of CH4
0 * 0.20454 = 0 g of N2O
All 3 factors: 0 * 1 (CO2) + 0 * 25 (CH4) + 0 * 298 (N2O) = 0 g of CO2 equivalent
1 person yearly n_not_removed impact is 0 g of CO2eq

removed_p_impact 0.241065 kg of Phosphorus treated per person per year (sludge composting phase)
0 * 0.241065 = 0 g of CO2
0 * 0.241065 = 0 g of CH4
0 * 0.241065 = 0 g of N2O
All 3 factors: 0 * 1 (CO2) + 0 * 25 (CH4) + 0 * 298 (N2O) = 0 g of CO2 equivalent
1 person yearly p_removed impact is 0 g of CO2eq

not_removed_p_impact 0.562485 kg of Phosphorus left untreated per person per year
0 * 0.562485 = 0 g of CO2
0 * 0.562485 = 0 g of CH4
0 * 0.562485 = 0 g of N2O
All 3 factors: 0 * 1 (CO2) + 0 * 25 (CH4) + 0 * 298 (N2O) = 0 g of CO2 equivalent
1 person yearly p_not_removed impact is 0 g of CO2eq

sludge_transport 0.186 m3 of sludge transport per person per year
5612 * 0.186 = 1043.832 g of CO2
0.3 * 0.186 = 0.0558 g of CH4
0.0144 * 0.186 = 0.0026784 g of N2O
All 3 factors: 1043.832 * 1 (CO2) + 0.0558 * 25 (CH4) + 0.0026784 * 298 (N2O) = 1046.0251632 g of CO2 equivalent
1 person yearly transport impact is 1046.0252 g of CO2eq

sludge_composting 0.186 m3 of sludge composting per person per year
1177.33 * 0.186 = 218.98338 g of CO2
266.667 * 0.186 = 49.600062 g of CH4
21.5333 * 0.186 = 4.0051938 g of N2O
All 3 factors: 218.98338 * 1 (CO2) + 49.600062 * 25 (CH4) + 4.0051938 * 298 (N2O) = 2652.5326824 g of CO2 equivalent
1 person yearly composting impact is 2652.5327 g of CO2eq

Climate change impact, all usage aspects summed
5741.73 (bod) + 23698.495296 (n_removed) + 0 (n_not_removed) + 0 (p_removed) + 0 (p_not_removed) + 1046.0251632 (transport) + 2652.5326824 (composting) = 33138.7831416 g of CO2 equivalent
Usage impact of 33.1387831416kg CO2eq per person per year
======================================================================


equipment id: 42, Usage phase, depending on number of persons
removed_bod_impact 17.532 kg of BOD treatment per person per year
0 * 17.532 = 0 g of N
0 * 17.532 = 0 g of P
0.0672 * 17.532 = 1.1781504 g of NOx
0.0247 * 17.532 = 0.4330404 g of NH3
All 3 factors: 0 * 0.42 (N) + 0 * 3.06 (P) + 1.1781504 * 0.015 (NOx) + 0.4330404 * 0.04 (NH3) = 0.034993872 g of PO4 equivalent
1 person yearly bod impact is 0.034993872 g of PO4eq

removed_n_impact 4.90896 kg of Neutrogen treatment per person per year
0 * 4.90896 = 0 g of N
0 * 4.90896 = 0 g of P
0 * 4.90896 = 0 g of NOx
0 * 4.90896 = 0 g of NH3
All 3 factors: 0 * 0.42 (N) + 0 * 3.06 (P) + 0 * 0.015 (NOx) + 0 * 0.04 (NH3) = 0 g of PO4 equivalent
1 person yearly n_removed impact is 0 g of PO4eq

not_removed_n_impact 0.20454 kg of Neutrogen left untreated per person per year
1000 * 0.20454 = 204.54 g of N
0 * 0.20454 = 0 g of P
0 * 0.20454 = 0 g of NOx
0 * 0.20454 = 0 g of NH3
All 3 factors: 204.54 * 0.42 (N) + 0 * 3.06 (P) + 0 * 0.015 (NOx) + 0 * 0.04 (NH3) = 85.9068 g of PO4 equivalent
1 person yearly n_not_removed impact is 85.9068 g of PO4eq

removed_p_impact 0.241065 kg of Phosphorus treated per person per year (sludge composting phase)
0 * 0.241065 = 0 g of N
50 * 0.241065 = 12.05325 g of P
0 * 0.241065 = 0 g of NOx
0 * 0.241065 = 0 g of NH3
All 3 factors: 0 * 0.42 (N) + 12.05325 * 3.06 (P) + 0 * 0.015 (NOx) + 0 * 0.04 (NH3) = 36.882945 g of PO4 equivalent
1 person yearly p_removed impact is 36.882945 g of PO4eq

not_removed_p_impact 0.562485 kg of Phosphorus left untreated per person per year
0 * 0.562485 = 0 g of N
1000 * 0.562485 = 562.485 g of P
0 * 0.562485 = 0 g of NOx
0 * 0.562485 = 0 g of NH3
All 3 factors: 0 * 0.42 (N) + 562.485 * 3.06 (P) + 0 * 0.015 (NOx) + 0 * 0.04 (NH3) = 1721.2041 g of PO4 equivalent
1 person yearly p_not_removed impact is 1721.2041 g of PO4eq

sludge_transport 0.186 m3 of sludge transport per person per year
0.000004 * 0.186 = 7.44E-7 g of N
0 * 0.186 = 0 g of P
18 * 0.186 = 3.348 g of NOx
0 * 0.186 = 0 g of NH3
All 3 factors: 7.44E-7 * 0.42 (N) + 0 * 3.06 (P) + 3.348 * 0.015 (NOx) + 0 * 0.04 (NH3) = 0.05022031248 g of PO4 equivalent
1 person yearly transport impact is 0.05022031248 g of PO4eq

sludge_composting 0.186 m3 of sludge composting per person per year
11.876 * 0.186 = 2.208936 g of N
0 * 0.186 = 0 g of P
4.03333 * 0.186 = 0.75019938 g of NOx
0.133333 * 0.186 = 0.024799938 g of NH3
All 3 factors: 2.208936 * 0.42 (N) + 0 * 3.06 (P) + 0.75019938 * 0.015 (NOx) + 0.024799938 * 0.04 (NH3) = 0.93999810822 g of PO4 equivalent
1 person yearly composting impact is 0.93999810822 g of PO4eq

Eutrophication impact, all usage aspects summed
0.034993872 (bod) + 0 (n_removed) + 85.9068 (n_not_removed) + 36.882945 (p_removed) + 1721.2041 (p_not_removed) + 0.05022031248 (transport) + 0.93999810822 (composting) = 1845.0190572927 g of PO4 equivalent
Usage impact of 1.8450190572927kg PO4eq per person per year
======================================================================


equipment id: 42, Usage phase, per equipment unit
Climate change impact, all usage aspects summed
= g of CO2 equivalent
Usage impact of 0kg CO2eq per equipment per year
======================================================================


equipment id: 42, Usage phase, per equipment unit
Aquatic eutrophication impact, all usage aspects summed
= g of PO4 equivalent
Usage impact of 0kg PO4eq per equipment unit per year
======================================================================