Resistex KOMET - Environmental Product Declaration

This document outlines the environmental profile of the Resistex KOMET luminaire, based on a Life Cycle Assessment (LCA).

Product Reference

The reference product for this environmental declaration is an indoor lighting luminaire with the commercial reference: KOMET 850705.

Technical Specifications

Characteristic	Description
Technical Description	Hub with a single aesthetic for two optics: symmetrical or asymmetrical (depending on model). Hub equipped with an SMD LED board. HF detection/Pre-warning of extinction.
Components and Accessories	Diffuser: Polycarbonate Direct/Symmetrical Opal. Body: Polycarbonate.
Light Source	Integrated LED module.
Number of Light Sources Required	1 over the reference life of the luminaire.
Control Gear	Integrated.
Number of Control Gear Required	1 over the reference life of the luminaire.
Luminous Flux	2862 lumens.
Rated Supply Voltage	220-240 V.
Color Temperature	3000 K.
IP Rating	IP65.
IK Rating	IK10.
Luminous Efficacy	120 lm/W.
Power Consumption	23.9 W.
Assigned Lifetime	102,000 hours.
Luminaire Usage Duration	29.1 years.
Application	Indoor / Residential buildings.
Product Mass	0.709065 kg.
Packaging Mass	0.24778 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 reduced to 1000 lumens over a reference life of 35,000 hours.

Declared Unit

A luminaire providing an output luminous flux of 2862 lumens over a reference life of 29.14 years.

Constituent Materials

The total product mass is 0.956845 kg (0.709065 kg product + 0.24778 kg packaging). At the reference flux level, the total product mass is 0.1148214 kg.

Material Breakdown

Category	Material	Percentage
Metals	Copper	1.3%
Metals	Stainless steel with chrome	1.1%
Metals	Ferrites	0.7%
Metals	Aluminum	0.3%
Metals	Divers	0.3%
Plastics	Polycarbonate (PC)	58.6%
Plastics	Epoxy resin	2.8%
Plastics	Polyethylene low density (LDPE)	0.5%
Plastics	Silicone rubber	0.5%
Plastics	Polyester resin	0.4%
Plastics	Phenolic resin	0.1%
Plastics	Polyvinylchloride (PVC)	0.1%
Plastics	Divers	0.2%
Other	Cardboard	24.2%
Other	Paper	6.6%
Other	Glass fibre	1.9%
Other	Raw materials	0.1%
Other	Divers	<0.1%
Total	Metals: 3.6%
Total	Plastics: 63.3%
Total	Other: 33.1%

Environmental Information

Manufacturing

The KOMET luminaire is designed in compliance with Directive RoHS (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 directives. Efforts have been made to replace plastic with recycled and recyclable cardboard.

Installation

The KOMET luminaire requires no specific installation procedures.

End of Life

Resistex is affiliated with the eco-organization ecosystem for the recycling and recovery of WEEE (Waste Electrical and Electronic Equipment). A service in collaboration with ecosystem is available for the free collection of WEEE.

Life Cycle Analysis Methodology

The Life Cycle Assessment (LCA) is conducted according to the criteria of the PEP ecopassport® PCR-ed4-FR-2021 09 06. The functional unit and scenarios for distribution, use, and waste treatment comply with the assumptions in PSR-0014-ed2-FR-2023 07 13. The results were obtained using EIME software version 6.2 with data from April 2024.

Manufacturing Stage

Luminaires are assembled at the RESISTEX factory in China. This stage includes:

Production and upstream transport of materials for manufacturing and packaging.
Industrial material processing.
Assembly, including energy, gas, and water consumption, and waste from assembly and packaging.
End-of-life treatment of waste.
Transport of the packaged product to the final logistics platform.

Recycled material content is considered to be 0.220111930354446 %.

Distribution Stage

Product distribution from the logistics platform (Saint André de la Roche, France) to installation sites in France is modeled by truck transport (250 km) and container transport (19,000 km).

Installation Stage

The installation phase considers the end-of-life of the packaging.

Use Stage

Electricity Consumption Scenario

The luminaire features a dimming or extinction system based on presence and absence, resulting in a theoretical energy saving coefficient of 0.75. The luminaire is used for 29.14 years (102,000 hours total). With a power of 23.9W and the 0.75 energy saving coefficient, the total electricity consumption over its lifetime is 1828.35 kWh.

Light Source Replacement

No light source replacement is necessary during the luminaire's lifetime. Normal operating conditions do not require maintenance.

End of Life Stage

The end-of-life stage includes the transport and treatment of the luminaire and its light source. The modeling uses ICV modules from the ESR database (EcoSystem) to evaluate the environmental footprint of end-of-life electrical and electronic equipment. Data specific to the product's Bill of Materials (BOM), electronic boards, and cables are used.

Module D - Benefits and Charges Beyond System Boundaries

Module D accounts for benefits and charges related to recycled materials used in manufacturing and packaging recycling during installation. It also includes benefits from product recycling at end-of-life.

Environmental Impacts

The following tables present the environmental indicators calculated at the functional unit level (1000 lumens for 35,000 hours) and equipment level (one luminaire for 102,000 hours).

Mandatory Indicators (Functional Unit)

Impact Indicator	Unit	Fabrication (A1-A3)	Distribution (A4)	Installation (A5)	Use (B1-B7)							End of Life (C1-C4)	Total (Hors D)	Benefits and Charges (D)
					B1	B2	B3	B4	B5	B6	B7
Global Warming Potential - Total	kg CO2 eq	1.02E+00	6.22E-03	6.78E-02	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.94E+01	0.00E+00	1.94E+01	1.05E-01	2.06E+01	-1.70E-01
Global Warming Potential - Fossil Fuels	kg CO2 eq	1.05E+00	6.22E-03	2.92E-02	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.93E+01	0.00E+00	1.93E+01	1.02E-01	2.05E+01	-1.27E-01
Global Warming Potential - Biogenic	kg CO2 eq	-2.75E-02	2.54E-08	3.86E-02	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	8.56E-02	0.00E+00	8.56E-02	2.70E-03	9.94E-02	-4.25E-02
Global Warming Potential - Land Use Change	kg CO2 eq	1.77E-04	9.40E-09	3.04E-10	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.05E-08	1.77E-04	0.00E+00
Ozone Depletion Potential	kg CFC-11 eq	6.39E-08	7.54E-11	5.16E-10	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	3.20E-07	0.00E+00	3.20E-07	1.23E-08	3.97E-07	-1.48E-09
Acidification Potential	mol H+ eq	5.40E-03	9.82E-06	8.27E-05	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.03E-01	0.00E+00	1.03E-01	9.65E-04	1.10E-01	-8.32E-04
Eutrophication Potential - Freshwater	kg P eq	3.59E-06	2.32E-08	4.30E-07	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	8.73E-04	0.00E+00	8.73E-04	1.46E-06	8.78E-04	-9.72E-05
Eutrophication Potential - Marine	kg N eq	7.28E-04	1.78E-06	3.89E-05	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.53E-02	0.00E+00	1.53E-02	4.11E-04	1.12E-03	-7.34E-05
Eutrophication Potential - Terrestrial	mol N eq	7.96E-03	1.95E-05	2.56E-04	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	2.44E-01	0.00E+00	2.44E-01	3.66E-04	2.53E-01	-9.85E-04
Photochemical Ozone Creation Potential	kg COVNM eq	2.69E-03	6.32E-06	5.99E-05	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	4.39E-02	0.00E+00	4.39E-02	3.66E-04	4.70E-02	-2.31E-04
Abiotic Depletion Potential - Elements	kg Sb eq	2.51E-05	2.22E-09	1.38E-09	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	2.64E-05	0.00E+00	2.64E-05	7.27E-07	5.22E-05	-1.58E-05
Abiotic Depletion Potential - Fossil Fuels	MJ	2.23E+01	1.10E-01	3.19E-01	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	3.55E+03	0.00E+00	3.55E+03	1.69E+00	3.58E+03	-2.59E-02
Water Use	m3 eq	1.88E-01	2.24E-04	3.42E-03	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	4.00E+00	0.00E+00	4.00E+00	2.07E+01	2.49E+01	-1.07E+01

Mandatory Indicators (Equipment Level)

Impact Indicator	Unit	Fabrication (A1-A3)	Distribution (A4)	Installation (A5)	Use (B1-B7)							End of Life (C1-C4)	Total (Hors D)	Benefits and Charges (D)
					B1	B2	B3	B4	B5	B6	B7
Global Warming Potential - Total	kg CO2 eq	8.51E+00	5.18E-02	5.65E-01	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.62E+02	0.00E+00	1.62E+02	8.74E-01	1.72E+02	-1.41E+00
Global Warming Potential - Fossil Fuels	kg CO2 eq	8.74E+00	5.18E-02	2.43E-01	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.61E+02	0.00E+00	1.61E+02	8.51E-01	1.71E+02	-1.06E+00
Global Warming Potential - Biogenic	kg CO2 eq	-2.29E-01	2.12E-07	3.21E-01	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	7.13E-01	0.00E+00	7.13E-01	2.25E-02	8.28E-01	-3.54E-01
Global Warming Potential - Land Use Change	kg CO2 eq	1.47E-03	7.84E-08	2.53E-09	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	8.75E-08	1.47E-03	0.00E+00
Ozone Depletion Potential	kg CFC-11 eq	5.32E-07	6.29E-10	4.30E-09	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	2.67E-06	0.00E+00	2.67E-06	1.03E-07	3.31E-06	-1.24E-08
Acidification Potential	mol H+ eq	4.50E-02	8.18E-05	6.89E-04	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	8.62E-01	0.00E+00	8.62E-01	8.04E-03	9.16E-01	-6.93E-03
Eutrophication Potential - Freshwater	kg P eq	2.99E-05	1.94E-07	3.58E-06	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	7.27E-03	0.00E+00	7.27E-03	7.32E-05	7.32E-03	-8.10E-04
Eutrophication Potential - Marine	kg N eq	6.06E-03	1.48E-05	3.24E-04	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.28E-01	0.00E+00	1.28E-01	3.43E-03	1.38E-01	-6.12E-04
Eutrophication Potential - Terrestrial	mol N eq	6.64E-02	1.63E-04	2.14E-03	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	2.03E+00	0.00E+00	2.03E+00	3.66E-04	2.53E-01	-9.85E-04
Photochemical Ozone Creation Potential	kg COVNM eq	2.24E-02	5.26E-05	4.99E-04	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	3.66E-01	0.00E+00	3.66E-01	3.05E-03	3.92E-01	-1.93E-03
Abiotic Depletion Potential - Elements	kg Sb eq	2.09E-04	1.85E-08	1.15E-08	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	2.20E-04	0.00E+00	2.20E-04	6.06E-06	4.35E-04	-1.32E-04
Abiotic Depletion Potential - Fossil Fuels	MJ	1.86E+02	9.20E-01	2.66E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	2.96E+04	0.00E+00	2.96E+04	1.41E+01	2.98E+04	-2.16E-01
Water Use	m3 eq	1.57E+00	1.87E-03	2.85E-02	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	3.33E+01	0.00E+00	3.33E+01	1.73E+02	2.07E+02	-8.92E+01

About Resistex

Resistex is a family-owned French company founded in 1937, specializing in the design, manufacture, and distribution of innovative lighting solutions for tertiary and residential buildings. Electricians are key partners, and Resistex is committed to providing energy-efficient, personalized lighting solutions that offer the 'right light'. The company prioritizes the end-user, innovation for personalization, green growth, and the energy transition.

Contact Information

Entity	Details
RESISTEX	11, Quai de la Banquière, 06730 Saint André de la Roche
	Tel: 04 93 27 62 76
	Email: resistex@resistex-sa.com
	Web: https://www.resistex-sa.com/fr/

Collaboration

Model PEP Sheet Realized in Collaboration With	Details
Syndicat du luminaire - GIL	https://www.luminaire.org/
CODDE - Département du LCIE Bureau Veritas	www.codde.fr

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