Umwelt Produktdeklaration Name des Herstellers – Name des Produkts

ENVIRONMENTAL PRODUCT DECLARATIONas per ISO 14025 and EN 15804

Owner of the Declaration Lindner Group

Programme holder Institut Bauen und Umwelt e.V. (IBU)

Publisher Institut Bauen und Umwelt e.V. (IBU)

Declaration number EPD-LIN-2014223-IAA1-EN

Issue date 19.12.2014

Valid to 18.06.2020

Lindner GroupRaised Floor System, Type NORTEC

www.bau-umwelt.com / https://epd-online.com

2 Environmental Product Declaration Lindner Group – Raised Floor System, Type NORTEC

1. General Information

Lindner Group Raised Floor System, Type NORTECProgramme holderIBU - Institut Bauen und Umwelt e.V.Panoramastr. 110178 BerlinGermany

Owner of the DeclarationLindner GroupBahnhofstr. 2994424 Arnstorf

Declaration numberEPD-LIN-2014223-IAA1-EN

Declared product / Declared unit1 m² raised floor system, Type NORTEC

This Declaration is based on the Product Category Rules:System floors, 11.2014 (PCR tested and approved by the independent expert committee)

Issue date19.12.2014

Valid to18.06.2020

Scope:The EPD refers to the raised floor system, type NORTEC. The production data used is based on 2013. The LCA which is based on plausible, transparent and comprehensible basic data fully represents the system product indicated.The owner of the declaration shall be liable for the underlying information and evidence; the IBU shall not be liable with respect to manufacturer information, life cycle assessment data and evidences.

Verification

The CEN Norm /EN 15804/ serves as the core PCRIndependent verification of the declaration

according to /ISO 14025/Prof. Dr.-Ing. Horst J. Bossenmayer(President of Institut Bauen und Umwelt e.V.) internally x externally

Dr. Burkhart Lehmann(Managing Director IBU)

Dr. Frank Werner(Independent verifier appointed by SVR)

2. Product

2.1 Product descriptionNORTEC raised floor systems are prefabricated modular components manufactured in the factory which form an installation space for accommodating all installations as well as supply and disposal lines and providing unhindered access at each point and at all times to this hollow space. The raised floor system essentially comprises the raised floor panel and the substructure. Installation requires supplementary parts and products (gaskets, subfloor sealing, pedestal adhesive, locking glue, edge trims and wall connection tape). NORTEC raised floor panels are manufactured from fibre-reinforced calcium sulphate panels (bulk density ranging from approx. 1,300 to 1,700 kg/m³) with panel thicknesses of 20-44 mm. Raised floor panels are manufactured in 600 x 600 mm format as standard and with glued edge trims at the sides. Steel pedestals are used as the substructure which permit various finished floor heights (28 - 2,000 mm).

Linking (installation in buildings) the individual components to form a surface area gives rise to the raised floor design. The panel models (density and panel thickness) and dimensions of the substructure are determined in accordance with the respective requirements.

2.2 ApplicationThe raised floor system comprising fibre-reinforced calcium sulphate panels, raised floor pedestals and supplementary components referred to in section 2.1 is primarily used in public, commercial and private buildings in order to create cavities / installation space. Raised floor systems can be laid using all standard floor coverings but must be co-ordinated to the various system variants.

3 Environmental Product Declaration Lindner Group – Raised Floor System, Type NORTEC

2.3 Technical Data Structural DataName Value UnitSystem construction (overall, finished floor height) 140 - 164 mm

Layer thickness (from - to) 20 - 44 mmSubstructure ~ 120 mmGrammage / System weight 30 - 66 kg/m2

Density 1500 kg/m3

Point load (/EN 12825/EN 13213/)* 2 - 5 kN

Fire protection (/EN 13501/DIN 4102/) Building material class* A1, A2 -

Fire protection (/EN 13501/DIN 4102/) Fire resistance*

REI30/ REI60

F30/F60-

Electrostatics (/EN 1081/) 10^6 ΩNoise protection (laboratory calues; VDI 3762 must be observed)* Normalised flanking level difference D nfw

48-57 dB

Sound protection (laboratory values; VDI 3762 must be observed)* Sound reduction index Rw

62 dB

Sound protection (laboratory values; VDI 3762 must be observed)* Normalised flanking impact sound pressure level L nfw

73-47 dB

Sound protection (laboratory values; VDI 3762 must be observed)* Reduction in impact sound pressure level ∆Lw

12-37 dB

* = These values depict the entire test ranges of the NORTEC raised floor system. Values for the specific raised floor system are documented by individual test reports.

2.4 Placing on the market / Application rulesThe recognised rules of technology apply for placing on the market. Raised floors display a form of verification in accordance with EN 12825:2001 and are certified to EN 12825 in accordance with the application guideline.Use is governed by the respective national guidelines, especially

/EN 13501-1:2007+A1:2009/ /EN 13501-2:2010-02/ /DIN 4102-1:1998/ /DIN 4102-2:1977-09/

2.5 Delivery statusThe fibre-reinforced calcium sulphate panels (600 x 600 mm as standard) are supplied stacked on individual or double pallets. The stacking height depends on the thickness of the panels and the possible covering application. Raised floor pedestals and other individual components are packed in cardboard boxes.

2.6 Base materials / Ancillary materials

Name Value UnitCalcium sulphate panel (FGD-gypsum + cellulose fibres) ~ 95 %

Pedestals (galvanised steel) ~ 3,5 %Hot-melt adhesive (EVA) < 0,5 %Edge trim (PVC / ABS) < 0,5 %Pedestal adhesive (PU / SMP)* < 0,5 %Subfloor sealing (synthetic resin emulsion, epoxy resin)* < 0,5 %

Gaskets (EVA)* < 0,5 %Locking glue (synthetic resin emulsion)* < 0,5 %

Edge trim (synthetic resin emulsion)* < 0,5 %

Wall connection tape (PE foam)* < 0,5 %* = part of the raised floor system but not part of the Declaration

2.7 ManufactureManufacturing and processing the calcium sulphate panel:Both of the FGD-gypsum and cellulose fibre raw materials are combined and after adding water, they are pressed under high pressure to form stable panels, then dried and milled to the requisite sizes.The edge trims are processed in additional manufacturing steps. Manufacturing the supports:The supports are manufactured through resistance welding or pressing the individual pipe, threaded rod and sheet steel components. The dimensions of the individual components are based on technical specifications.A zinc coating is applied to the supports by means of electroplating (electro-galvanising) in order to protect them from corrosion.

2.8 Environment and health during manufacturing

Fibre-reinforced calcium sulphate panels and raised floor supports are manufactured in plants which meet environmental protection specifications.Where possible, the process water used is directed into a closed circuit.Gypsum waste incurred is largely redirected to the material circuit within the plant.The Lindner Group avails of an Energy Management System to /EN ISO 50001/ and an Environmental Management System to /EN ISO 14001/.

2.9 Product processing/InstallationThe individual components delivered to the site are linked to form NORTEC system floors.Other instructions can be found in the instruction guidelines for raised floors.Installation must be carried out by trained personnel.

2.10 PackagingThe stacked fibre-reinforced calcium sulphate panels are delivered on pallets, packed in boxes (paper/cardboard), bound by plastic hoops and possibly wrapped in plastic film.Raised floor supports and other individual components are stacked or layered in cardboard boxes. The wooden pallets used are available as disposal pallets.

4 Environmental Product Declaration Lindner Group – Raised Floor System, Type NORTEC

The packaging material is easily separable and can be reused or recycled as necessary. Most of the packaging can be collected sorted by type and directed to regional recycling services. Residual materials must be disposed of in accordance with the respective national guidelines. As a general rule, the packaging guidelines for all standard Lindner products are defined in packaging data sheets.

2.11 Condition of useThe service life of the raised floor system reviewed here is generally intended as an internal construction for the entire life cycle of the building.

2.12 Environment and health during useThere are no known interactions between the product, the environment and health. During the use phase, no hazardous substances are emitted which exceed the limit values of the /AgBB/, /AFSSET and /Section 01350/ test schemes. In accordance with /AgBB/, the "Raised floor system, type NORTEC" product tested is suitable for use in interior applications in accordance with the "Approval guidelines for the health-related evaluation of indoor construction products" (DIBt publications 10/2008) in connection with the LCI values of the/ AgBB/ in the version dated March 2008. Likewise, the French requirements are observed in accordance with /AFSSET/ (2009) and the requirements of the American standard – California Specification, Section 01350 (CA/DHS/EHLB/R-174) – Version dated 15 July 2004 are also complied with.

2.13 Reference service lifeThe Reference Service Life (RSL) is not taken into consideration in this Declaration as the life cycle as a whole is not declared. For information purposes, the service life is indicated in accordance with the "Service life of components for LCAs in accordance with the rating system for sustainable building (BNB)" table issued by the Federal Office for Building and Regional Planning (/BBSR/).A condition for the service life indicated is designated use, maintenance and care.

2.14 Extraordinary effects

FireFibre-reinforced calcium sulphate panels are "non-combustible" and have building material class A1 and A2 ratings in accordance with /EN 13501-1/ and /DIN 4102-1/.

Depending on the substructure and panel thickness, the declared raised floor system has class REI 30, REI 60 and F 30, F 60 ratings in accordance with /EN 13501-2/ and /DIN 4102-2/.

WaterThe Lindner NORTEC raised floor system is installed in interior areas and does not usually come into contact with water. Brief exposure to moisture does not damage the system as long as the panels are able to dry out in full afterwards. When the raised floor system is exposed to larger volumes of water over longer periods of time, no ingredients are washed out which could be hazardous to water. This can however impair the technical characteristics as Lindner raised floor systems are not waterproof and the panels tend to swell and the supports corrode in very humid or wet environments.

Mechanical destructionMechanical destruction impairs system durability and function. Depending on the size of the areas destroyed, they can be restored by replacement or new installation without impairing function.

2.15 Re-use phaseDe-construction / Re-use The fibre-reinforced calcium sulphate panels can be de-constructed indestructibly and re-used unchanged for the same application. Separation from other building materials is recommended on the site for other methods of re-use / disposal.Further use / RecyclingAfter treatment in recycling plants intended for gypsum waste and following crushing or additional removal of contaminants, fibre-reinforced calcium sulphate panels can be used as soil conditioners, fertiliser components or setting regulation agents for cement taking consideration of official specifications.Furthermore, fibre-reinforced calcium sulphate panels can be directed to the manufacturing process as a raw material for new panels after the appropriate treatment, thereby closing the material circuit. Raised floor pedestals can be directed in full to steel recycling.

2.16 DisposalDisposal is in accordance with the waste codes:/17 08 02/ – Gypsum-based building materials with the exception of those covered by /17 08 01/Gypsum-based building materials maintain the sediment conditions of Landfill Class 1 of the Landfill Regulation in the event of disposal./17 04 05/ – Iron and steel

2.17 Further informationAdditional product information available at:www.Lindner-Group.com

3. LCA: Calculation rules

3.1 Declared UnitThe declared unit refers to 1 m² NORTEC raised floor system with a panel thickness of 20-44 mm and mean density of 1500 kg/m³ (weighted production mix) as well as the accompanying supports (4 pces. per m² raised floor) with a unit weight of 0.3372 kg.

Declared unitName Value UnitDeclared unit 1 m2

Grammage (incl. substructure) ~50 kg/m2

Conversion factor to 1 kg 0.2 -

5 Environmental Product Declaration Lindner Group – Raised Floor System, Type NORTEC

3.2 System boundaryType of EPD: cradle to gate. This LCA takes consideration of the life cycle stage of product manufacturing. The product stage comprises Modules A1 (Raw material supply), A2 (Transport) and A3 (Production). The following individual processes were included in the Product stage A1-A3 of manufacturing the raised floor system, type NORTEC:

Preliminary product provision processes (FGD-gypsum, cellulose fibres (Module A1)

Transporting preliminary products to the plant (Module A2)

Manufacturing processes for the system floor product in the plant, including energy (electricity, thermal energy), manufacturing ancillary and operating materials, and disposal of residual substances incurred (Module A3)

Manufacturing the packaging materials (Module A3)

3.3 Estimates and assumptionsSpecific data inventories are not available for all materials and average data inventories are not available for one material. Approximate data sets are applied for cellulose fibres and adhesive as well as certain chemicals within the framework of the raised floor pedestal electroplating process.

3.4 Cut-off criteriaAll operating data is taken into consideration in the LCA. Only substances whose percentage mass < 1% of the overall system and for which no appropriate background data is available are ignored. Less than 0.2% of the input data of the overall raised floor system has not been analysed.It can be assumed that the processes ignored would have contributed less than 5% to the impact categories under review.

3.5 Background data“GaBi 6” – the software system for comprehensive analysis developed by PE INTERNATIONAL AG – was used for modelling the life cycle for the product under review. The data required for the upstream chain and for which no specific details are available is taken from the GaBi data base (GaBi 6). The consistent data sets contained in the GaBi data base are documented and can be viewed online (GaBi 6 2013D).

3.6 Data qualityThe primary data is based on a data survey at the Arnstorf and Dettelbach production sites in 2013. The components supplied and the chemicals used in electroplating are procured from external manufacturers. Accordingly, no primary data results were possible during the first stage for these components. As a result, data from the GaBi data base which is as representative as possible is used for manufacturing these components. All other relevant

background data sets were taken from the GaBi 6 software data base and are less than 5 years old.

3.7 Period under reviewThe data for this Life Cycle Assessment is based on data sets from 2013.

3.8 AllocationThe production process does not result in any by-products. No allocation is therefore integrated in the software applied. Combustible production waste incurred is directed to energy utilisation. The ensuing electrical and thermal energy is offset within Modules A1-A3. Credits are gained through German mean data for electrical energy and thermal energy from natural gas.Inventories from the GaBi data base are used for die pollutants involved in manufacturing steel. These always include a percentage of steel scrap as there is no purely primary route for manufacturing steel. Scrap accounts for approx. 15%.The semi-finished products procured for manufacturing the floor system are acquired from various suppliers which is why this average process is used.During steel processing, max. 15% metal waste (chips, punchings, cuttings) are incurred. This scrap directly reaches the end of its waste characteristic.No environmental loads are considered for the initial volume of steel scrap. Likewise, production residue incurred also leaves the system without environmental loads or credits.The scrap volume in the input contained in the data inventory is declared as secondary material. Both primary and secondary cellulose fibres are used in manufacturing the gypsum panels. No singular processes are available for manufacturing/processing the cellulose fibres. But the processes can be depicted via fully-aggregated processes for the manufacture of various paper qualities. The share accounted for by secondary cellulose fibres is included in the system without any environmental loads. The carbon content in paper is taken consideration of via a mathematical auxiliary process as a value which is inherent to the material both when it enters the product and when production waste is incurred through absorption or emission of CO2.The volume of waste paper for manufacturing secondary cellulose fibres is declared as a secondary material. An allocation was avoided for the provision of FGD-gypsum.

3.9 ComparabilityBasically, a comparison or an evaluation of EPD data is only possible if all the data sets to be compared were created according to /EN 15804/ and the building context, respectively the product-specific characteristics of performance, are taken into account.

6 Environmental Product Declaration Lindner Group – Raised Floor System, Type NORTEC

4. LCA: Scenarios and additional technical information

Detailed technical information concerning application forms the basis for developing specific scenarios within the context of a building analysis. Scenarios are not developed within the framework of this cradle-to-gate Declaration.

7 Environmental Product Declaration Lindner Group – Raised Floor System, Type NORTEC

5. LCA: Results

DESCRIPTION OF THE SYSTEM BOUNDARY (X = INCLUDED IN LCA; MND = MODULE NOT DECLARED)

PRODUCT STAGECONSTRUCTION PROCESS

STAGEUSE STAGE END OF LIFE STAGE

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X X X MND MND MND MND MNR MNR MNR MND MND MND MND MND MND MND

RESULTS OF THE LCA - ENVIRONMENTAL IMPACT: 1m² NORTEC raised floor systemParameter Unit A1-A3

Global warming potential [kg CO2-Eq.] 13.01Depletion potential of the stratospheric ozone layer [kg CFC11-Eq.] 7.09E-9

Acidification potential of land and water [kg SO2-Eq.] 4.19E-2Eutrophication potential [kg (PO4)3-- Eq.] 7.18E-3

Formation potential of tropospheric ozone photochemical oxidants [kg Ethen Eq.] 3.76E-3Abiotic depletion potential for non fossil resources [kg Sb Eq.] 9.49E-4

Abiotic depletion potential for fossil resources [MJ] 310.10RESULTS OF THE LCA - RESOURCE USE: 1m² NORTEC raised floor system

Parameter Unit A1-A3

Renewable primary energy as energy carrier [MJ] 50.90Renewable primary energy resources as material utilization [MJ] 2.47

Total use of renewable primary energy resources [MJ] 53.37Non renewable primary energy as energy carrier [MJ] 341.35

Non renewable primary energy as material utilization [MJ] 0.00Total use of non renewable primary energy resources [MJ] 341.35

Use of secondary material [kg] 6.94Use of renewable secondary fuels [MJ] 0.00

Use of non renewable secondary fuels [MJ] 0.00Use of net fresh water [m³] 0.13

RESULTS OF THE LCA – OUTPUT FLOWS AND WASTE CATEGORIES: 1m² NORTEC raised floor system

Parameter Unit A1-A3

Hazardous waste disposed [kg] 3.31E-2Non hazardous waste disposed [kg] 1.58

Radioactive waste disposed [kg] 1.24E-2Components for re-use [kg] INDMaterials for recycling [kg] 15.10

Materials for energy recovery [kg] INDExported electrical energy [MJ] INDExported thermal energy [MJ] IND

8 Environmental Product Declaration Lindner Group – Raised Floor System, Type NORTEC

6. LCA: Interpretation

Global Warming Potential (GWP)More than two-thirds of the Global Warming Potential is accounted for by energy consumption in production and one-third is attributable to the raw material supply. Minor contributions to the Global Warming Potential are made by the provision of ancillary and operating materials as well as disposal of waste incurred during the production phase.Through sequestration of CO2 during tree growth, carbon dioxide is bound in wood. This is reflected in a negative value of the Global Warming Potential for packaging. Ozone Depletion Potential (ODP)66% of the Ozone Depletion Potential is caused by packaging materials. 24% is attributable to the raw material supply and 7% is caused by energy used. Acidification Potential (AP)60% of the Acidification Potential is accounted for by the raw material supply. Energy contributes 35% to the Acidification Potential. Eutrification Potential (EP)The Eutrification Potential is primarily caused by the raw material supply (67%) and energy consumption (25%). Photochemical Ozone Creation Potential (POCP)The Photochemical Ozone Creation Potential is primarily caused by the raw material supply (57%) and energy consumption (33%). The ancillary and operating materials make a 6% contribution to the POCP.

Abiotic Depletion of Resources (fossil) (ADPF)The abiotic depletion of fossil resources is caused by the raw material supply (58%), energy consumption (37%) and ancillary and operating materials (3%). Abiotic Depletion of Resources (elementary) (ADPE)The elementary abiotic depletion of resources is dominated (94%) by the raw material supply. The ancillary and operating materials account for the remaining 6%. Renewable primary energy (PERT)The essential drivers of primary energy requirements from regenerative resources are the use of energy (37%), the packaging materials used (29%) and the raw material supply (28%). Non-renewable primary energy (PENRT)At 41%, energy makes a significant contribution to non-renewable energy requirements while the raw material supply accounts for 54%. Water consumptionOne square metre of raised floor system requires 1.97E+04 kg water.The main share of water consumption is accounted for by electricity production and water required by the production process for the actual system floor (including supports). WasteThe greatest share of waste produced is represented by disposed of non-hazardous waste. Disposed of radioactive waste is largely incurred by energy utilisation in the upstream chains associated with preliminary products (electricity generation).

7. Requisite evidence

7.1 Formaldehyde No formaldehydes are used in manufacturing the product. (A basis for determining/measuring the formaldehyde values to EN 717-1 or EN 120 is not provided.)

7.2 MDI No MDI adhesive systems are used in manufacturing the product.

9 Environmental Product Declaration Lindner Group – Raised Floor System, Type NORTEC

7.3 Testing for pre-treatment of materials used The base materials in the declared product do not contain any "waste wood" resource. There is no basis for testing in accordance with the Waste Wood Act (AltholzVO). 7.4 Fire gas toxicity The product is non-combustible with the result that evidence of fire gas toxicity is not relevant. No toxicological tests were carried out.

7.5 VOC emissions Test report no. G01921A2 dated 22 July 2010 is available for the NORTEC raised floor system. The institute carrying out this test was /Eurofins Product Testing/ A/S, Smedeskovvej 38, DK-8464 Galten, Denmark.

Result: The product examined is suitable for use in interior areas in accordance with the "Certification principles for health assessment of construction products in interior areas" (DIBt notifications 10/2008) in combination with the LCI values of the AgBB in the version dated March 2008. AgBB overview of results (28 days)Name Value UnitTVOC (C6 - C16) < 5 μg/m3

Sum SVOC (C16 - C22) < 5 μg/m3

R (dimensionless) < 0,02 -VOC without NIK < 5 μg/m3

Carcinogenic Substances n.n. μg/m3

8. References

Institut Bauen und UmweltInstitut Bauen und Umwelt e.V., Königswinter (pub.):Generation of Environmental Product Declarations (EPDs);

General principlesfor the EPD range of Institut Bauen und Umwelt e.V. (IBU), 2013/04www.bau-umwelt.de

PCR, Part AInstitut Bauen und Umwelt e.V., Königswinter (pub.): Product Category Rules for Construction Products from the range of Environmental Product Declarations of Institut Bauen und Umwelt (IBU), Part A: Calculation Rules for the Life Cycle Assessment and Requirements on the Background Report. 2013/04www.bau-umwelt.de

ISO 14025DIN EN ISO 14025:2011-10: Environmental labels and declarations — Type III environmental declarations — Principles and procedures

EN 15804EN 15804:2012-04+A1 2013: Sustainability of construction works — Environmental Product Declarations — Core rules for the product category of construction products

EN 15804EN 15804:2012-04+A1 2013, Sustainability of construction works – Environmental product declarations – Core rules for the product category of construction products. AgBBAgBB: German Committee for Health-Related Evaluation of Construction Products AFSSETAFSEET: Agence française de sécurité sanitaire de l’environnement et du travail (AFSSET; since 2010 ANSES: Agence nationale de sécurité sanitaire, de l’alimentation, de l’environnement et du travail)

BBSRBundesinstitut für Bau-, Stadt und Raumforschung California SpecificationCalifornia Specification Section 01350 (CA/DHS/EHLB/R-174) - Version dated 15 July 2014 DIN EN 1081DIN EN 1081:1998-04Resilient floor coverings – Determination of the electrical resistance DIN 4102DIN 4102-1:1998: Fire behaviour of building materials and building components – Part 1: Building materials; concepts, requirements and tests DIN 4102-2:1977-09: Fire behaviour of building materials and building components – Part 2: Building components; definitions, requirements and tests EurofinsEurofins Product Testing A/SSmedeskovvej 38, DK-8464 Galten, Denmark EN 13501EN 13501-1:2007+A1:2009: Fire classification of construction products and building elements – Part 1: Classification using data from reaction to fire tests EN 13501-2:2010-02: Fire classification of construction products and building elements - Part 2: Classification using data from fire resistance tests, excluding ventilation services EN 12825EN 12825:2001: Raised access floors GaBi 6PE International AG; GaBi 6: Software system and data base for comprehensive analysis. Copyright, TM Stuttgart, Echterdingen, 1992-2013

10 Environmental Product Declaration Lindner Group – Raised Floor System, Type NORTEC

GaBi 6 2013 DGaBi 6: GaBi 6 documentation: data sets in the data base for comprehensive analysis. Copyright, TM. Stuttgart, Echterdingen, 1992-2013. http://documentation.gabi-software.com/ ISO 14001DIN EN ISO 14001:2004, Environmental management systems – Requirements with guidance for use ISO 50001DIN EN ISO 50001:2011Energy management systems – Requirements with guidance for use

Service life of components for LCAs in accordance with the rating system for sustainable building (BNB) Product Category Rules for Building Products, Part B: Requirements on the EPD for system floors VDI 3762VDI 3762:2012-01: Sound insulation by means of raised access floors and hollow floors European List of Wastes OrdinanceList of Wastes (Annex to § 2, section 1 AVV) 24.02.2012

PublisherInstitut Bauen und Umwelt e.V.Panoramastr. 110178 BerlinGermany

Tel +49 (0)30 3087748- 0Fax +49 (0)30 3087748- 29Mail info@bau-umwelt.comWeb www.bau-umwelt.com

Programme holderInstitut Bauen und Umwelt e.V.Panoramastr 110178 BerlinGermany

Tel +49 (0)30 - 3087748- 0Fax +49 (0)30 – 3087748 - 29Mail info@bau-umwelt.comWeb www.bau-umwelt.com

Author of the Life Cycle AssessmentCampus Schloss MariakirchenObere Hofmark 394424 Mariakirchen/ArnstorfGermany

Tel +49(0)8723 978711401Fax +49(0)8723 978711414Mail josef.steretzeder@th-deg.deWeb https://www.th-deg.de/de/cs-mariakirchen

Owner of the DeclarationLindner GroupBahnhofstraße 2994424 ArnstorfGermany

Tel +49 (0) 8723 20 3682Fax +49 (0) 8723 20 2830Mail floorsystems@lindner-group.comWeb www.Lindner-Group.com