- CO2 Footprint energie
- CO2 Footprint materiaal
- Regelgeving
- Milieudata
- Solar
- Tools hogesterktestaal
- EN15978 – Module A2+A4: Transport
- Kapspanten voor hallen
- Milieubelasting dakligger incl. PV-panelen (PDF)
- Bepaal milieubelasting gevelkolom incl. PV-panelen (PDF)
- Milieubelasting middenkolom (PDF)
- Milieuwinst middenkolom hogere staalsoorten
- Vergelijk milieubelasting S235,S355,S460
- Bepaal milieubelasting buizen (PDF)
- Bereken milieubelasting hoofddraagconstructie
Recyclingmethodieken (vertrouwelijk, v1.0 beta)
equation 7: Product Environmental Footprint (PEF) Guide, July 17, 2012 [Annex V: Dealing with Multi-functionality ……]
RUaEP7 =
(1 – R1)x EV + R1 x Erecycled + R2 x(ERecyclingEofL – E*V x QS/QP) + R3 x(EER – LHV x XER x ESE) + (1 – R2 – R3) x ED
equation 5: Alternative proposal equivalent to Module D, submitted by metal industry in Sept 2012 to JRC
RUaEP5 =
(1 – R1)x EV + R1 x Erecycled + (R2– R1)x(ERecyclingEofL – E*V x QS/QP) + R3 x(EER – LHV x XER x ESE) + (1 – R2 – R3) x ED
equation 1: New PEF equation (April 2013): 50/50 approach -> Official Journal European Union (L124), 4May2013 [Annex V]
RUaEP1 =
(1 – R1/2)x EV + R1/2 x Erecycled + R2/2 x(ERecyclingEofL – E*V x QS/QP) + R3 x(EER – LHV x XER, heat x ESE, heat – LHV x XER, elec x ESE, elec) + (1 – R2/2 – R3) x ED – R1/2 x E*D
equation 2: First alternative equation Guidance document for pilot projects, 50/50 recycling en 50% energy recovery
RUaEP2 =
(1 – R1/2)x EV + R1/2 x Erecycled + R2/2 x(ERecyclingEoL – E*V x QS/QP) + R3/2 x(EER – LHV x XER,heat x ESE,heat – LHV x XER,elec x ESE,elec) + (1 – R2/2 – R3/2) x ED – R1/2 x E*D
equation 3: Second alternative equation- Guidance document for pilot projects Recycled content only (100:0)
RUaEP3 =
(1 – R1)x EV + R1 x Erecycled + R3 x(EER – LHV x XER,heat x ESE,heat – LHV x XER,elec x ESE,elec) + (1 – R2 – R3) x ED
equation 4: Third alternative equation- Guidance document for pilot projects EoL approach (0:100)
RUaEP4 =
EV + R2 x (ErecyclingEoL – E*V x QS/QP) + R3 x(EER – LHV x XER,heat x ESE,heat – LHV x XER,elec x ESE,elec) + (1 – R2 – R3) x ED
equation 6: New proposed alternative equation for discussion [allocation parameter calculated on market information 0% – 100%]
RUaEP6 =
(1 – R1')x EV + R1' x Erecycled + R2' x(ERecyclingEofL – E*V x QS/QP) + R3 x(EER – LHV x XER x ESE) + (1 – R2' – R3) x ED – R1' x ED*
EPD values Bouwen met Staal 2014; Heavy Structural Steel
RUaEP =
A1,A2,A3 + A4,A5 + B1-B7 + C1,C2,C3 + D