Resistex SIMPLY - Profil Environnemental Produit
Brand: Resistex
Product Reference: SIMPLY luminaire (commercial reference: 607000)
Introduction
This Environmental Product Declaration (PEP) provides transparent communication on the environmental impacts of Resistex products. Its creation is part of Resistex's eco-design approach for products and packaging, actively contributing to the fight against climate change and pollution reduction. Developed using EIME V6 software, this PEP allows for product comparison through quantified, multi-criteria environmental data derived from a life cycle analysis.
Registration Number: PCR-ed4-FR-2021 09 06
Verification Information: Independent verification of declaration and data in accordance with ISO 14025:2010.
Critical Review: Conducted by a panel of experts.
This PEP conforms to ISO 14025 for Type III environmental declarations. Elements of this PEP cannot be compared with elements from another program.
Product Reference Details
The reference product is an industrial waterproof luminaire equipped with an LED board, commercialized as the 607000 luminaire.
Technical Characteristics
| Characteristic | Description |
| Technical Description | Complete system luminous efficacy 119.8 lm/W. Luminous flux maintenance L70F10 at 58000 hours (Ta25°C). Polycarbonate body and diffuser. |
| Components and Accessories | Possibility of fixing anywhere along the luminaire's length. Cable glands at entry and direct push-in terminal block. |
| Light Source | Integrated LED module |
| Power Supply | Integrated |
| Luminous Flux | 4196 lumens |
| Nominal Operating Voltage | 220 V |
| Source Color Temperature | 4000K |
| IP Rating | IP65 |
| IK Rating | IK10 |
| Luminous Efficacy | 119.8 lm/W |
| Power Consumption | 35 W |
| Assigned Lifetime | 54000 h |
| Luminaire Usage Duration | 13.5 years |
| Application | Indoor / Industrial (manufacturing plants) |
| Product Mass | 0.79 kg |
| Packaging Mass | 0.01 kg |
| Geographical Representativeness | Manufactured in China. Distribution, installation, use, and end-of-life in France. |
Functional Unit
To provide lighting delivering an artificial luminous flux adjusted to 1000 lumens for a reference lifespan of 35,000 hours.
Constituent Materials
The total product mass is 0.8 kg (0.79 kg product, 0.01 kg packaging). The constituent materials are:
| Metals | Plastics | Others | |
|---|---|---|---|
| Aluminium: 91.1% | Polycarbonate (PC): 86.3% | Glass fibre: 57.8% | |
| Stainless steel with chrome: 5.0% | Epoxy resin: 9.4% | Cardboard: 26.6% | |
| Copper: 2.9% | Polyethylene low linear density (LLDPE): 2.8% | Paper: 6.9% | |
| Cast iron: 0.3% | Polypropylene (PP): 0.9% | Tetrabromobisphenol A: 5.1% | |
| Tin: 0.2% | Polyvinylchloride (PVC): 0.4% | Glass: 2.8% | |
| Ferrites: 0.2% | Rigid polyurethane foam (RPF): <0.1% | Alumina: 0.8% | |
| Steel: 0.1% | Silicone rubber: <0.1% | Electrolyte: <0.1% | |
| Iron: 0.1% | Polyethylene terephthalate (PET): <0.1% | Quartz sand: <0.1% | |
| Alloy: <0.1% | Polyethylene (PE): <0.1% | Flame retardant: <0.1% | |
| Brass: <0.1% | Polyester resin: <0.1% | Barium oxide: <0.1% | |
| Silver: <0.1% | Thermoset: <0.1% | Titanium dioxide: <0.1% | |
| Zinc oxide: <0.1% | Phenolic resin: <0.1% | Antimony trioxide: <0.1% | |
| Total | 100.0% | 100.0% | 100.0% |
Additional Environmental Information
Manufacturing
The SIMPLY luminaire is designed in compliance with RoHS Directive (2011/65/EU), restricting the use of lead, mercury, cadmium, hexavalent chromium, and flame retardants (PBB, PBDE).
Distribution
Packaging mass and volume have been optimized according to European packaging directives, with efforts to limit plastic use.
Installation
The SIMPLY luminaire requires no specific installation operations. It operates with a DALI dimmable constant current driver.
Usage
Integrated constant current driver.
End of Life
Resistex is affiliated with the eco-organization Ecosystem for the recycling and recovery of all its WEEE (Waste Electrical and Electronic Equipment). A service in collaboration with Ecosystem is in place to collect WEEE from your activities free of charge.
Life Cycle Analysis Methodology
The Life Cycle Analysis (LCA) is based on the PCR-ed4-FR-2021 09 06 criteria of the PEP ecopassport® Program. The functional unit and scenarios for distribution, use, and waste treatment comply with the hypotheses set in PSR-0014-ed1-FR-2018 07 18. Results were obtained using EIME software version 6.0 and its database from April 2023.
Manufacturing Stage
Luminaires are assembled at the RESISTEX factory in China. This stage includes:
- Production and upstream transport of materials for products and packaging, including scrap materials.
- Industrial material processing.
- Assembly, including:
- Electricity, gas, and water consumption.
- Scrap waste from assembly.
- Packaging waste.
- End-of-life treatment of waste (scrap and consumables).
- Transport of the packaged product from the assembly site to the last logistics platform.
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 by:
- Transport by 27t truck over 1000 km.
- Container transport over 19000 km.
Transport Scenario: Local/national transport PEP-PCR-ed4-EN-2021 09 06
Installation Stage
The installation phase considers the end-of-life of its packaging.
Energy Model: Electricity Mix; Production mix; Low voltage; 2018; France, FR
Use Stage
Electricity Consumption Scenario: The luminaire is used for 13.5 years with an annual usage of 4000 hours, totaling 54000 hours. With a power consumption of 35W, its total electricity consumption over its lifespan is 1890 kWh.
Light Source Replacement: No light source replacement is necessary during the luminaire's lifespan. Normal operating conditions do not require maintenance.
Energy Model: Electricity Mix; Production mix; Low voltage; 2018; France, FR
End of Life Stage
The end-of-life stage includes the transport and treatment of the luminaire and its light source. End-of-life treatment was modeled using the LCA modules from the ESR database of EcoSystem, which assesses the environmental footprint of end-of-life electrical and electronic equipment. The Bill of Materials (BOM) for the product, electronic boards, and cables were used to apply specific ESR data for end-of-life treatment of the contained materials. ESR data without virgin material substitution benefits were used, along with ESR data for the 'Lamps' category.
Energy Model: Electricity Mix; Production mix; 2015-2017; France, FR (Ecosystem)
Module D - Net Benefits and Charges Beyond the System Boundaries
Charges related to recycled material content in the product during manufacturing were considered in Module D. These were modeled by the quantities of recycled material reported in manufacturing as positive quantities of virgin materials.
Recycling benefits of packaging during the installation stage were considered in Module D. These benefits were modeled by the quantities of recycled material reported in installation as negative quantities of virgin materials.
Benefits related to the product's end-of-life (recycling) were modeled using ESR data, including benefits only.
Environmental Impacts
The impact results presented below were obtained using the methods defined by PCR-ed4-FR-2021 09 06 and PSR-0014-ed1-FR-2018 07 18. This declaration considers the emission of a luminous flux of 1000 lumens over a reference lifespan of 35,000 hours.
Mandatory Indicators
| Impact Indicators | Unit | Manufacturing (A1-A3) | Distribution (A4) | Installation (A5) | Use (B1-B7) | End of Life (C1-C4) | Total (hors D) | Benefits and Charges (D) | |||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| kg CO2 eq | kg CO2 eq | kg CO2 eq | kg CO2 eq | kg CFC-11 eq | mol H+ eq | kg P eq | kg N eq | kg COVNM eq | kg Sb eq | MJ | m3 eq | ||||
| Climate change - total | kg CO2 eq | 2.42E+00 | 7.83E-03 | 1.12E-02 | 2.80E+01 | 1.82E-01 | 3.07E+01 | -3.56E-02 | |||||||
| Climate change - fossil fuels | kg CO2 eq | 2.38E+00 | 7.83E-03 | 9.40E-03 | 2.80E+01 | 1.67E-01 | 3.05E+01 | -3.54E-02 | |||||||
| Climate change - biogenic | kg CO2 eq | 3.08E-02 | 0.00E+00 | 1.82E-03 | 7.23E-02 | 1.49E-02 | 1.20E-01 | -1.58E-04 | |||||||
| Climate change - land occupation and soil transformation | kg CO2 eq | 8.91E-05 | 0.00E+00 | -3.66E-10 | 0.00E+00 | 0.00E+00 | 8.91E-05 | 0.00E+00 | |||||||
| Ozone layer depletion | kg CFC-11 eq | 1.87E-07 | 1.20E-11 | 3.97E-10 | 4.13E-07 | 1.36E-08 | 6.13E-07 | -2.94E-09 | |||||||
| Acidification | mol H+ eq | 1.82E-02 | 4.95E-05 | 2.62E-05 | 1.62E-01 | 4.23E-03 | 1.85E-01 | -5.63E-04 | |||||||
| Freshwater eutrophication | kg P eq | 5.14E-06 | 2.93E-09 | 1.11E-07 | 1.33E-03 | 2.89E-06 | 1.34E-03 | -5.14E-05 | |||||||
| Marine eutrophication | kg N eq | 2.06E-03 | 2.32E-05 | 8.88E-06 | 2.23E-02 | 3.04E-03 | 2.75E-02 | -4.18E-05 | |||||||
| Terrestrial eutrophication | mol N eq | 2.28E-02 | 2.55E-04 | 6.74E-05 | 3.21E-01 | 1.66E-03 | 3.46E-01 | -5.29E-04 | |||||||
| Photochemical ozone formation | kg COVNM eq | 7.17E-03 | 6.43E-05 | 1.65E-05 | 6.62E-02 | 6.23E-04 | 7.40E-02 | -1.37E-04 | |||||||
| Abiotic resource depletion - elements | kg Sb eq | 3.81E-05 | 3.08E-10 | 6.90E-10 | 1.33E-05 | 6.54E-08 | 5.15E-05 | -2.54E-06 | |||||||
| Abiotic resource depletion - fossil fuels | MJ | 4.37E+01 | 1.09E-01 | 7.77E-02 | 5.39E+03 | 1.73E+00 | 5.43E+03 | -3.00E-01 | |||||||
| Water demand | m3 eq | 2.65E-01 | 2.97E-05 | 2.97E-03 | 2.03E+00 | 5.77E+01 | 6.00E+01 | -4.33E+00 | |||||||
Inventory Flow
| Impact Indicators | Unit | Manufacturing (A1-A3) | Distribution (A4) | Installation (A5) | Use (B1-B7) | End of Life (C1-C4) | Total (hors D) | Benefits and Charges (D) | |||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| MJ | MJ | MJ | MJ | MJ | kg | MJ | kg de C | kg de C | |||||||
| Renewable primary energy use, excluding primary renewable energy used as raw materials | MJ | 2.73E+00 | 1.46E-04 | 3.89E-02 | 4.98E+02 | 2.71E-01 | 5.01E+02 | -1.19E-02 | |||||||
| Renewable primary energy resources used as raw materials | MJ | 1.07E-01 | 0.00E+00 | 0.00E+00 | 0.00E+00 | 0.00E+00 | 1.07E-01 | 0.00E+00 | |||||||
| Total renewable primary energy use | MJ | 2.83E+00 | 1.46E-04 | 3.89E-02 | 4.98E+02 | 2.71E-01 | 5.01E+02 | -1.19E-02 | |||||||
| Non-renewable primary energy use, excluding non-renewable primary energy used as raw materials | MJ | 4.14E+01 | 1.09E-01 | 7.77E-02 | 5.39E+03 | 1.73E+00 | 5.43E+03 | -3.00E-01 | |||||||
| Non-renewable primary energy resources used as raw materials | MJ | 2.30E+00 | 0.00E+00 | 0.00E+00 | 0.00E+00 | 0.00E+00 | 2.30E+00 | 0.00E+00 | |||||||
| Total non-renewable primary energy use | MJ | 4.37E+01 | 1.09E-01 | 7.77E-02 | 5.39E+03 | 1.73E+00 | 5.43E+03 | -3.00E-01 | |||||||
| Secondary material use | kg | 1.29E-03 | 0.00E+00 | 0.00E+00 | 0.00E+00 | 0.00E+00 | 1.29E-03 | 0.00E+00 | |||||||
Optional Indicators
| Impact Indicators | Unit | Manufacturing (A1-A3) | Distribution (A4) | Installation (A5) | Use (B1-B7) | End of Life (C1-C4) | Total (hors D) | Benefits and Charges (D) | |||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Décès/Kg eq PM2.5 | kBq U235 eq | CTUe | CTUh | CTUh | pas de dimension | ||||||||||
| Fine particulate matter emissions | Décès/Kg eq PM2.5 | 1.18E-07 | 4.03E-10 | 1.67E-10 | 6.29E-06 | 9.62E-09 | 6.42E-06 | -1.16E-09 | |||||||
| Ionizing radiation, human health | kBq U235 eq | 1.53E+00 | 1.91E-05 | 1.34E+00 | 7.27E+02 | 7.15E-03 | 7.30E+02 | -5.13E-04 | |||||||
| Ecotoxicity (freshwater) | CTUe | 8.66E+01 | 5.27E-03 | 8.92E-02 | 1.98E+02 | 1.20E+02 | 4.05E+02 | -3.89E+00 | |||||||
| Human toxicity, non-carcinogenic effects | CTUh | 2.01E-08 | 1.49E-11 | 2.87E-11 | 2.03E-07 | 3.23E-08 | 2.55E-07 | -5.89E-09 | |||||||
| Human toxicity, carcinogenic effects | CTUh | 2.90E-08 | 1.37E-13 | 6.25E-10 | 4.69E-09 | 3.21E-10 | 3.47E-08 | -6.21E-11 | |||||||
| Impacts on land use/soil quality | pas de dimension | 2.58E-01 | 0.00E+00 | 4.77E-03 | 8.94E-01 | 7.11E-01 | 1.87E+00 | -4.69E-02 | |||||||
Company Information
RESISTEX
Address: 11 Quai de la Banquière, 6730 Saint André de la Roche
Tel: 04 93 27 62 76
Email: cissagarre@resistex-sa.com
Web: www.resistex-sa.com
PEP Model Developed in Collaboration With
- Syndicat du luminaire - GIL (https://www.luminaire.org/)
- CODDE - Département du LCIE Bureau Veritas (www.codde.fr)
