LINOLED Luminaire: Environmental Product Declaration

Product Reference Information

The reference product for this environmental declaration is a tube luminaire S19, with the commercial reference being the 051320 luminaire. Its technical characteristics are as follows:

Functional Unit

To provide lighting delivering an artificial luminous flux of 1000 lumens over a reference lifespan of 35,000 hours.

The reference flux is defined as one product unit divided by 2.895.

Declared Unit

A luminaire providing an output luminous flux of 806 lumens over a reference lifespan of 4.28571428571429 years.

Constituent Materials

The total product mass is 0.0884 kg, comprising 0.0566 kg for the product and 0.0318 kg for packaging. At the reference flux level, the total product mass is 0.255918 kg. The constituent materials are:

Additional Environmental Information

Fabrication

The LINOLED luminaire is designed in compliance with the requirements of RoHS Directive (Directive 2011/65/EU of the European Parliament and of the Council of 8 June 2011), restricting the use of lead, mercury, cadmium, hexavalent chromium, and flame retardants (polybrominated biphenyls - PBB, polybrominated diphenyl ethers - PBDE), as mentioned in the Directive.

Distribution

The mass and volume of the packaging have been optimized according to the European directive on packaging. Efforts have been made to eliminate plastic from packaging, replacing it with recycled and recyclable cardboard.

Installation

The LINOLED luminaire requires no specific installation operations.

Use

The LINOLED luminaire requires no specific usage operations.

End of Life

Resistex is a member of the eco-organization ecosystem, facilitating the recycling and recovery of all its WEEE (Waste Electrical and Electronic Equipment). A service in collaboration with ecosystem is available to collect WEEE from your activities free of charge.

Life Cycle Analysis Methodology

The Life Cycle Analysis underpinning this Environmental Product Declaration (EPD) is conducted in accordance with the criteria set by PCR-ed4-FR-2021 09 06 of the PEP ecopassport® Program. The functional unit and the scenarios for distribution, use, and waste treatment comply with the hypotheses established in PSR-0014-ed2-FR-2023 07 13.

The results were obtained using the EIME software, version 6.2, with its database updated in April 2024 (with a further update in June 2024).

Manufacturing Stage

The luminaires are assembled at the RESISTEX factory in China. The manufacturing stage includes:

• Production and upstream transport of materials required for product and packaging (primary and secondary) manufacturing, including materials that will become waste.
• Industrial material processing.
• Assembly, including:
  • Electricity, gas, and water consumption.
  • Waste from assembly scrap.
  • Packaging waste.
• End-of-life treatment of waste (scrap and/or consumables).
• Transport of the packaged product from the assembly site to the final logistics platform.

A recycled material content of 0.305769230769231% is considered.

Energy Model: Electricity Mix; Low voltage; 2018; China, CN

Distribution Stage

The distribution of the packaged product from the final logistics platform (Saint André de la Roche, France) to the installation sites (France) was modeled as:

• Transport by 27t capacity truck over 250 km.
• Transport by container ship over 19000 km.

Local/National Transport Scenario: PEP-PCR-ed4-EN-2021 09 06

Installation Stage

The LINOLED luminaire requires no specific installation operations. The installation phase for this product accounts for the end-of-life of its packaging.

Energy Model: Electricity Mix; Production mix; Low voltage; 2020; France, FR

Use Stage

Electricity Consumption Scenario

The luminaire does not feature lighting management functionality.

The luminaire is used for 4.28571428571429 years with an annual usage of 3500 hours, totaling 15000 hours of use. With a power of 9W and a theoretical energy saving coefficient of 1, its electricity consumption over its lifespan is 135 kWh.

Light Source Replacement

No light source replacement is necessary during the luminaire's lifespan.

Normal operating conditions for the luminaire 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.

The end-of-life treatment of the luminaire was modeled using the ICV modules from the EcoSystem database. This database allows for the evaluation of the environmental footprint of electrical and electronic equipment at end-of-life. 96 materials are modeled and broken down according to the different flows processed to quantify the environmental impacts of end-of-life electronic equipment. This database, made available to manufacturers, allows for the measurement of the environmental impact of electrical equipment based on its composition.

The BOM (Bill of materials) of the product, electronic boards, and cables were isolated to use the ESR data specific to the end-of-life treatment of the materials contained in each of these elements. ESR data without benefit related to virgin material substitution were used. ESR data for the category "Professional Lighting Equipment" were used.

Energy Model: Electricity Mix; Production mix; 2015-2017; France, FR (Ecosystem)

Module D - Benefits and Loads Beyond the System Boundaries

Charges related to recycled material contained in the product during its manufacturing were considered in Module D. These charges were modeled by the quantities of recycled material reported in manufacturing as positive quantities of virgin materials.

Benefits from packaging recycling at 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 end-of-life of the product (recycling) were modeled using ESR data including benefits only.

Environmental Impacts

Environmental Impacts of the Reference Product at the Functional Unit Scale

The impact results presented below were obtained using the methods defined by PCR-ed4-FR-2021 09 06 and PSR-0014-ed2-FR-2023 07 13. This declaration was prepared considering the emission of a luminous flux of 1000 lumens over a reference lifespan of 35,000 hours.

Inventory Flows

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 806 lumens during 15000 hours). Thus, the impacts to consider for modeling the product over its reference lifespan are the impacts of the functional unit multiplied by 0.35.

Optional Indicators

Biogenic carbon content of the product: 0 kg of C

Biogenic carbon content of the packaging: 0.01 kg of C

About Resistex

Resistex, a French family company founded in 1937, designs, manufactures, and distributes innovative lighting solutions for tertiary and residential buildings, for new constructions or energy renovations. Its employees are its greatest asset.

The electrical installer is our historical client and partner. Our commitment is to provide, with them, an energetically efficient, personalized lighting solution, adapted to the premises and the illuminated person, thus benefiting from the "just light".

This commitment reflects Resistex's priorities:

• The significant place of the end-user of lighting within the Resistex client system.
• The development of innovations to enable the expected personalization.
• The important focus on green growth and energy transition.

Company Information

PEP Sheet Model Developed in Collaboration With