Environmental Product Declaration: Resistex 941881 Outdoor Wall Light
This document outlines the environmental profile of the Resistex 941881 outdoor wall light, adhering to the PEP ecopassport program standards.
General Information
Reference Product
The reference product for this environmental declaration is the Resistex 941881 outdoor wall light. Its technical specifications are as follows:
| Technical Characteristics | Details |
|---|---|
| Technical Description | Sleek wall-mounted applique, compliant with the Decree of December 27, 2018, on the prevention, reduction, and limitation of light pollution. Double beam, waterproof wall applique equipped with two diffusers. |
| Components and Accessories Supplied | Glass Diffuser (Direct/Symmetric Translucent), Die-cast Aluminum Body |
| Light Source | Integrated LED Module |
| Number of Light Sources Required | 1 over the reference lifespan of the luminaire |
| Control Gear | Not Integrated |
| Number of Control Gears Required | 1 over the reference lifespan of the luminaire |
| Luminous Flux | 922 lumens |
| Nominal Operating Voltage | 220-240 V |
| Color Temperature | 3000 K |
| Ingress Protection (IP) Rating | 65 |
| Impact Resistance (IK) Rating | 8 |
| Luminous Efficacy | 50 lm/W |
| Power Consumption | 18.3 W |
| Assigned Lifespan | 50,700 hours |
| Luminaire Usage Duration | 12.7 years |
| Application | Outdoor / Urban |
| Product Mass | 1.246255 kg |
| Packaging Mass | 0.1867 kg |
| Geographical Representativeness | Manufactured in China. Distribution, installation, use, and end-of-life in France. |
| Temporal Representativeness | Manufacturing data representative of 2024 |
Functional Unit
To provide lighting that delivers an artificial luminous flux of 1000 lumens for a reference lifespan of 35,000 hours.
The reference flux is defined as one product unit divided by 0.749.
Declared Unit
One luminaire providing an output luminous flux of 922 lumens over a reference lifespan of 12.675 years.
Constituent Materials
The total product mass is 1.432955 kg, comprising 1.246255 kg of product and 0.1867 kg of packaging. At the reference flux level, the total product mass is 1.073283295 kg. The constituent materials are:
| Category | Material | Percentage (%) | Material | Percentage (%) | Category | Material | Percentage (%) | |
|---|---|---|---|---|---|---|---|---|
| Metals | Aluminum | 74.0% | Plastics | Polycarbonate (PC) | 1.1% | Other | Cardboard | 12.8% |
| Metals | Ferrites | 0.6% | Plastics | Polyethylene low density (LDPE) | 0.5% | Other | Glass | 6.8% |
| Metals | Copper | 0.3% | Plastics | Silicone rubber | 0.4% | Other | Paper | 2.7% |
| Metals | Tin | 0.1% | Plastics | Epoxy resin | 0.2% | Other | Glass fibre | 0.2% |
| Metals | Brass | <0.1% | Plastics | Polyethylene terephthalate (PET) | <0.1% | Other | ||
| Metals | Plastics | Polyethylene (PE) | <0.1% | Other | ||||
| Metals | Divers | <0.1% | Plastics | Divers | <0.1% | Other | Divers | <0.1% |
| Metals | Total | 75.1% | Plastics | Total | 2.3% | Other | Total | 22.6% |
Additional Environmental Information
Manufacturing
The luminaire is designed in compliance with RoHS Directive (Directive 2011/65/EU) restricting the use of lead, mercury, cadmium, hexavalent chromium, and flame retardants (polybrominated biphenyls - PBB, polybrominated diphenyl ethers - PBDE).
Distribution
Packaging mass and volume have been optimized according to European packaging directives. Efforts have been made to replace plastic in packaging with recycled and recyclable cardboard.
Installation
0
Use
0
End-of-Life
Resistex is affiliated with the eco-organization ecosystem, facilitating the recycling and recovery of all WEEE (Waste Electrical and Electronic Equipment). A service in collaboration with ecosystem is in place for the free collection of WEEE from your activities.
Life Cycle Assessment Methodology
The Life Cycle Assessment (LCA) underpinning this Environmental Product Declaration (EPD) is conducted in accordance with the criteria set by PCR-ed4-FR-2021 0906 of the PEP ecopassport® Program. The functional unit and scenarios for distribution, use, and waste treatment comply with the assumptions defined in PSR-0014-ed2-FR20230713. Results were obtained using EIME software version 6.2 with its database updated in April 2024 (June 2024 update).
Manufacturing Stage
Luminaires are assembled at the RESISTEX factory in China. The manufacturing stage includes:
- Production and upstream transport of materials for products and packaging (primary and secondary), including materials that become waste.
- Industrial material processing.
- Assembly, considering:
- Electricity, gas, and water consumption.
- Waste from assembly offcuts.
- Waste from packaging.
- End-of-life treatment of waste (offcuts and/or consumables).
- Transport of the packaged product from the assembly site to the last logistics platform.
Content of recycled material is considered to be 0%.
Energy Model: Electricity Mix; Low voltage; 2018; China, CN.
Distribution Stage
Product distribution from the last logistics platform (Saint André de la Roche, France) to the installation site (France) was modeled using:
- Transport by a 27 t truck over a distance of 250 km.
- Transport by container ship over a distance of 19,000 km.
Local/national transport scenario: PEP-PCR-ed4-EN-2021 0906.
Installation Stage
The installation phase considers the end-of-life of the product's packaging.
Energy Model: Electricity Mix; Production mix; Low voltage; 2020; France, FR.
Use Stage
Electricity Consumption Scenario
The luminaire does not have lighting management functionality. It is used for 12.675 years with 4,000 hours of annual use, totaling 50,700 hours. With a power consumption of 18.3W and an energy saving coefficient of 1, its electricity consumption over its lifespan is 927.81 kWh.
Light Source Replacement
No light source replacement is required during the luminaire's lifespan. Normal operating conditions do not require maintenance.
Energy Model: Electricity Mix; Production mix; Low voltage; 2020; France, FR.
End-of-Life Stage
The end-of-life stage includes the transport and treatment of the luminaire and its last light source. End-of-life treatment of the luminaire was modeled using the LCA modules from the EcoSystem ESR database, which quantifies the environmental impacts of WEEE end-of-life treatment based on material composition. Resistex's product Bill of Materials (BOM) for electronic cards and cables were used to apply specific ESR data for material end-of-life treatment. ESR data without benefits from virgin material substitution were used, specifically for the 'Professional Lighting Equipment' category.
Energy Model: Electricity Mix; Production mix; 2015-2017; France, FR (Ecosystem).
Environmental Impacts
Environmental Impacts of the Reference Product at the Functional Unit Scale
The impact results presented below were obtained using methods defined by PCR-ed4-FR-2021 0906 and PSR-0014-ed2-FR-2023 07 13. This declaration considers the emission of 1000 lumens over a reference lifespan of 35,000 hours.
| Impact Indicators | Unit | Manufacturing (A1-A3) | Distribution (A4) | Installation (A5) | Use (B1-B7) | End of Life (C1-C4) | Total (excluding D) | Module D (Benefits and Loads) |
|---|---|---|---|---|---|---|---|---|
| Climate Change - Total | kg CO2 eq | 2.49E+00 | 6.49E-02 | 3.56E-01 | 4.98E-02 | 4.62E+01 | 4.97E+01 | -6.17E+00 |
| Climate Change - Fossil Fuels | kg CO2 eq | 2.71E+00 | 6.49E-02 | 1.43E-01 | 4.98E-02 | 4.60E+01 | 4.95E+01 | -6.10E+00 |
| Climate Change - Biogenic | kg CO2 eq | -2.24E-01 | 2.66E-07 | 2.13E-01 | 2.04E-07 | 2.03E-01 | 2.05E-01 | -6.75E-02 |
| Climate Change - Land Use | kg CO2 eq | 1.56E-05 | 9.82E-08 | 1.67E-09 | 7.54E-08 | 7.54E-08 | 1.59E-05 | 0.00E+00 |
| Ozone Depletion | kg CFC-11 eq | 4.59E-07 | 7.87E-10 | 8.29E-09 | 6.04E-10 | 7.61E-07 | 1.27E-06 | -1.01E-07 |
| Acidification | mol H+ eq | 1.93E-02 | 1.03E-04 | 5.68E-04 | 7.87E-05 | 2.46E-01 | 2.69E-01 | -3.86E-02 |
| Eutrophication - Freshwater | kg P eq | 4.95E-06 | 2.43E-07 | 2.04E-06 | 1.86E-07 | 2.07E-03 | 2.08E-03 | -3.28E-04 |
| Eutrophication - Marine | kg N eq | 2.52E-03 | 1.86E-05 | 2.03E-04 | 1.43E-05 | 3.64E-02 | 4.05E-02 | -4.91E-03 |
| Eutrophication - Terrestrial | mol N eq | 2.75E-02 | 2.04E-04 | 1.43E-03 | 1.57E-04 | 5.80E-01 | 6.13E-01 | -5.45E-02 |
| Photochemical Ozone Formation | kg NMVOC eq | 9.00E-03 | 6.59E-05 | 3.56E-04 | 5.06E-05 | 1.04E-01 | 1.15E-01 | -1.54E-02 |
| Abiotic Depletion - Elements | kg Sb eq | 9.07E-05 | 2.32E-08 | 1.55E-08 | 1.78E-08 | 6.27E-05 | 1.54E-04 | -1.17E-04 |
| Abiotic Depletion - Fossil Fuels | MJ | 4.47E+01 | 1.15E+00 | 1.76E+00 | 8.85E-01 | 8.44E+03 | 8.49E+03 | -7.24E+01 |
| Water Scarcity | m3 eq | 4.70E-01 | 2.34E-03 | 6.09E-02 | 1.79E-03 | 9.50E+00 | 4.32E+01 | -2.77E+03 |
Inventory Flows
| Indicator | Unit | Manufacturing (A1-A3) | Distribution (A4) | Installation (A5) | Use (B1-B7) | End of Life (C1-C4) | Total (excluding D) | Module D (Benefits and Loads) |
|---|---|---|---|---|---|---|---|---|
| Total Primary Energy - Renewable | MJ | 1.18E+00 | 3.63E-03 | 8.84E-01 | 2.79E-03 | 9.33E+02 | 9.36E+02 | |
| Total Primary Energy - Non-Renewable | MJ | 4.47E+01 | 1.15E+00 | 1.76E+00 | 8.85E-01 | 8.44E+03 | 8.49E+03 | -7.24E+01 |
| Secondary Material Use | kg | 1.52E+00 | 1.52E+00 | |||||
| Net Freshwater Use | m3 | 1.70E-02 | 5.44E-05 | 2.06E-03 | 4.18E-05 | 2.23E-01 | 1.31E+00 | |
| Hazardous Waste Disposed | kg | 6.74E-01 | 2.72E-04 | 3.30E-03 | 2.08E-04 | 4.59E+00 | 5.27E+00 | |
| Non-Hazardous Waste Disposed | kg | 1.54E+00 | 6.02E-03 | 5.57E-02 | 4.62E-03 | 1.10E+01 | 1.27E+01 | |
| Radioactive Waste Disposed | kg | 1.02E-03 | 4.77E-06 | 8.48E-06 | 3.66E-06 | 2.19E-03 | 3.23E-03 | |
| Components for Reuse | kg | 0.00E+00 | 0.00E+00 | |||||
| Materials for Recycling | kg | 3.52E-01 | 1.27E-01 | 3.85E-01 | 8.64E-01 | |||
| Materials for Energy Recovery | kg | 0.00E+00 | 0.00E+00 | |||||
| Energy Supplied to the Environment | MJ | 1.28E-02 | 6.23E-04 | 1.34E-02 |
Optional Indicators
| Impact Indicators | Unit | Manufacturing (A1-A3) | Distribution (A4) | Installation (A5) | Use (B1-B7) | End of Life (C1-C4) | Total (excluding D) | Module D (Benefits and Loads) |
|---|---|---|---|---|---|---|---|---|
| Total Primary Energy Use during Lifecycle | MJ | 4.92E+01 | 1.16E+00 | 2.64E+00 | 8.88E-01 | 9.37E+03 | 9.43E+03 | -1.03E+02 |
| Fine Particulate Matter Emissions | Deaths/Kg eq PM2.5 | 1.13E-07 | 8.80E-10 | 3.42E-09 | 6.75E-10 | 9.72E-06 | 9.86E-06 | -4.06E-07 |
| Ionizing Radiation, Human Health | kBq U235 eq | 2.44E+01 | 2.30E-03 | 2.87E+01 | 1.76E-03 | 1.13E+03 | 1.18E+03 | -4.49E+00 |
| Ecotoxicity (Freshwater) | CTUe | 1.40E+01 | 1.89E+00 | 2.04E+00 | 1.45E+00 | 1.40E+02 | 1.64E+02 | -1.59E+00 |
| Human Toxicity, Carcinogenic Effects | CTUh | 4.26E-09 | 1.27E-11 | 1.50E-08 | 9.76E-12 | 8.85E-09 | 2.84E-08 | -2.42E-09 |
| Human Toxicity, Non-carcinogenic Effects | CTUh | 3.66E-08 | 2.43E-10 | 4.29E-10 | 1.86E-10 | 2.83E-07 | 3.33E-07 | -7.39E-08 |
| Impacts related to Land Use/Soil Quality | dimensionless | 9.80E-01 | 2.78E-04 | 1.55E-04 | 2.13E-04 | 2.63E+00 | 7.72E+00 | -1.49E+01 |
Biogenic Carbon Content of Product: 0.04 kg C. Biogenic Carbon Content of Packaging: 0.06 kg C.
Environmental Impacts of the Reference Product at the Equipment Scale
The following table presents the environmental indicators calculated and declared in the PEP sheet for the product at the equipment scale (for 1 luminaire of 922 lumens over 50,700 hours). Therefore, the impacts to consider for modeling the product over its reference lifespan are the functional unit impacts multiplied by 1.34.
| Impact Indicators | Unit | Manufacturing (A1-A3) | Distribution (A4) | Installation (A5) | Use (B1-B7) | End of Life (C1-C4) | Total (excluding D) | Module D (Benefits and Loads) |
|---|---|---|---|---|---|---|---|---|
| Climate Change - Total | kg CO2 eq | 3.32E+00 | 8.67E-02 | 4.76E-01 | 6.65E-02 | 6.17E+01 | 6.64E+01 | -8.23E+00 |
| Climate Change - Fossil Fuels | kg CO2 eq | 3.62E+00 | 8.67E-02 | 1.91E-01 | 6.65E-02 | 6.14E+01 | 6.61E+01 | -8.14E+00 |
| Climate Change - Biogenic | kg CO2 eq | -2.99E-01 | 3.55E-07 | 2.85E-01 | 2.72E-07 | 2.72E-01 | 2.73E-01 | -9.01E-02 |
| Climate Change - Land Use | kg CO2 eq | 2.09E-05 | 1.31E-07 | 2.23E-09 | 1.01E-07 | 1.01E-07 | 2.12E-05 | 0.00E+00 |
| Ozone Depletion | kg CFC-11 eq | 6.13E-07 | 1.05E-09 | 1.11E-08 | 8.07E-10 | 1.02E-06 | 1.69E-06 | -1.35E-07 |
| Acidification | mol H+ eq | 2.58E-02 | 1.37E-04 | 7.59E-04 | 1.05E-04 | 3.28E-01 | 3.59E-01 | -5.15E-02 |
| Eutrophication - Freshwater | kg P eq | 6.60E-06 | 3.24E-07 | 2.72E-06 | 2.49E-07 | 2.77E-03 | 2.78E-03 | -4.38E-04 |
| Eutrophication - Marine | kg N eq | 3.37E-03 | 2.48E-05 | 2.71E-04 | 1.91E-05 | 4.86E-02 | 5.41E-02 | -6.56E-03 |
| Eutrophication - Terrestrial | mol N eq | 3.67E-02 | 2.72E-04 | 1.91E-03 | 2.09E-04 | 7.74E-01 | 8.19E-01 | -7.28E-02 |
| Photochemical Ozone Formation | kg NMVOC eq | 1.20E-02 | 8.80E-05 | 4.76E-04 | 6.76E-05 | 1.39E-01 | 1.54E-01 | -2.06E-02 |
| Abiotic Depletion - Elements | kg Sb eq | 1.21E-04 | 3.09E-08 | 2.06E-08 | 2.37E-08 | 8.37E-05 | 2.05E-04 | -1.56E-04 |
| Abiotic Depletion - Fossil Fuels | MJ | 5.97E+01 | 1.54E+00 | 2.34E+00 | 1.18E+00 | 1.13E+04 | 1.13E+04 | -9.67E+01 |
| Water Scarcity | m3 eq | 6.27E-01 | 3.12E-03 | 8.14E-02 | 2.40E-03 | 1.27E+01 | 5.77E+01 | -3.70E+03 |
Inventory Flows
| Indicator | Unit | Manufacturing (A1-A3) | Distribution (A4) | Installation (A5) | Use (B1-B7) | End of Life (C1-C4) | Total (excluding D) | Module D (Benefits and Loads) |
|---|---|---|---|---|---|---|---|---|
| Total Primary Energy - Renewable | MJ | 1.57E+00 | 4.85E-03 | 1.18E+00 | 3.72E-03 | 1.25E+03 | 1.25E+03 | |
| Total Primary Energy - Non-Renewable | MJ | 5.86E+01 | 1.54E+00 | 2.34E+00 | 1.18E+00 | 1.13E+04 | 1.13E+04 | -9.67E+01 |
| Secondary Material Use | kg | 2.03E+00 | 2.03E+00 | |||||
| Net Freshwater Use | m3 | 2.26E-02 | 7.26E-05 | 2.74E-03 | 5.58E-05 | 2.98E-01 | 1.74E+00 | |
| Hazardous Waste Disposed | kg | 8.99E-01 | 3.62E-04 | 4.40E-03 | 2.78E-04 | 6.13E+00 | 7.04E+00 | |
| Non-Hazardous Waste Disposed | kg | 2.05E+00 | 8.04E-03 | 7.44E-02 | 6.17E-03 | 1.48E+01 | 1.69E+01 | |
| Radioactive Waste Disposed | kg | 1.36E-03 | 6.37E-06 | 1.13E-05 | 4.89E-06 | 2.93E-03 | 4.31E-03 | |
| Components for Reuse | kg | 0.00E+00 | 0.00E+00 | |||||
| Materials for Recycling | kg | 4.70E-01 | 1.70E-01 | 5.14E-01 | 1.15E+00 | |||
| Materials for Energy Recovery | kg | 0.00E+00 | 0.00E+00 | |||||
| Energy Supplied to the Environment | MJ | 1.71E-02 | 8.32E-04 | 1.80E-02 |
Biogenic Carbon Content of Product: 0 kg C. Biogenic Carbon Content of Packaging: 0.06 kg C.
Resistex at a Glance
Resistex is a French family-owned company founded in 1937. It designs, manufactures, and distributes innovative lighting solutions for tertiary and residential buildings, focusing on new constructions and energy renovation projects. The company values its employees as its primary asset.
The electrical installer is a historical client and partner. Resistex is committed to collaborating with installers to provide energy-efficient, customized lighting solutions tailored to specific spaces and users, ensuring the delivery of the 'right light'.
This commitment reflects Resistex's priorities:
- The significant role of the end-user in Resistex's client system.
- Development of innovations enabling the desired customization.
- Emphasis on green growth and energy transition.
| Company Information | Details |
|---|---|
| RESISTEX | 11, Quai de la Banquière, 06730 Saint André de la Roche |
| Tel | 04 93 27 62 76 |
| resistex@resistex-sa.com | |
| Web | https://www.resistex-sa.com/fr/ |
| PEP Fiche Model Developed in Collaboration With | Syndicat du luminaire - GIL |
| https://www.luminaire.org/ | |
| CODDE - LCIE Bureau Veritas Department | |
| www.codde.fr |
