Declaratie de conformitate pentru membrana acustica Danosa - UNE-EN 15804 si ISO 14025: DANOSA M.A.D.
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Environmental
Product
Declaration
In accordance with UNE-EN 15804 and ISO 14025:
Danosa Acoustic Membranes:
MAD2 | MAD4 | MAD4 auto-adhesive | MAD6 | MAD6 autoadhesive
From:
DANOSA – Derivados Asfálticos Normalizados, S.A.
Programme:
The International EPD® System, www.environdec.com
Programme operator:
EPD International AB
EPD registration number:
S-P-01923
Issue date:
2020-04-01
Revision date:
2021-11-24
Valid until:
2025-04-01
PCR:
SUB PCR:
2012:01 version 2.33. Construction Products and Construction Services.
SUB_PCR_C_Acoustical System Solutions (Construction product). Date
2020-09-18.
Global.
Geographical scope:
An EPD should provide current information and may be updated if conditions change. The stated
validity is therefore subject to the continued registration and publication at www.environdec.com
PAGE 1/38
General information
Programme information
The International EPD® System
EPD International AB
Box 210 60
SE-100 31 Stockholm
Sweden
www.environdec.co
m
info@environdec.com
Programme:
Address:
Website:
E-mail:
CEN standard UNE-EN 15804 serves as the Core Product Category Rules (PCR)
Product category rules (PCR): PCR 2012:01 Construction Products (UNE-EN 15804), version 2.33
PCR 2012:01-Sub-PCR-C: Sub-PCR-C Acoustical systems solutions (construction product) (2020-0918)
PCR review was conducted by: the Technical Committee of the International EPD System. President:
Massimo Marino. Contact via info@environdec.com
EPD developed by: ISOLANA Ahorro Energético SL
Independent third-party verification of the declaration and data, according to ISO 14025:2006:
☐ EPD process certification ☒ EPD verification
Third party verifier: Cristina Gazulla from Tecnalia R&I Certificación, SL www.tecnaliacertificacion.com
In case of accredited certification bodies:
Accredited by: ENAC. Accreditation No. 125 / C-PR283
In case of recognised individual verifiers:
Approved by: The International EPD® System
Procedure for follow-up of data during EPD va
lidity involves third party verifier:
☒ Yes
☐ No
The EPD owner has the sole ownership, liability, and responsibility for the EPD.
EPDs within the same product category but from different programmes may not be comparable. EPDs
of construction products may not be comparable if they do not comply with UNE-EN 15804. For further
information about comparability, see UNE-EN 15804 and ISO 14025.
PAGE 2/38
Company information
Owner of the EPD: DANOSA, Derivados Asfálticos Normalizados, SA
Contact: Calle de la Granja 3, 28108 Alcobendas, Madrid – Spain.
https://www.danosa.com
Description of the organisation: DANOSA, Derivados Asfálticos Normalizados, SA has over four
decades of working experience with constant developments to improve and diversify its activities.
The first line of work was the manufacture of waterproofing materials. Nowadays, it meets construction
and civil engineering needs in waterproofing, acoustic insulation, drainage and geotextiles and skylights,
being the lea
der in the Spanish market and the sixth in Europe.
In acoustics related fields, DANOSA has extensive experience in research and has carried out more
than 5,000 acoustic insulation projects in homes, public buildings, classrooms and audio-visual studios.
With the possession of advanced technologies, exportation is facilitated to five continents, with factories
in Spain, Portugal and India and subsidiaries in France, Portugal, Morocco, Colombia, Mexico, and the
United Kingdom.
DANOSA's commitment to sustainability.
DANOSA is committed to continuously improve the productivity of its facilities through the rational use
of natural resources and energy by reducing, whenever possible, the waste generated in all operations,
in addition to facilitating recycling.
DANOSA is the pioneering company in environmental performance communication, where the
Environmental Product Declarations (EPDs) of a great number of its products are published. Not to
mention, DANOSA participates in the online materia
ls platform of the Spanish Green Building Council
(http://materiales.gbce.es/) making available to the public all the information necessary to verify the
compliance of its products with the different criteria established in the main and currently existing
buildings environmental certifications (LEED, BREEAM and VERDE), thus, contributes to sustainability
in the construction sector.
Product-related or management system-related certifications: DANOSA’s products have prestigious
certificates that guarantee compliance with the most demanding quality standards, such as the CE
marking, «Avis Techniques» from CSTB (France), the «Documentos de Aplicação» from LNEC
(Portugal), the «Agréments Techniques Européens » from EOTA (FM systèmes in Europe), certificates
from British Board Agrément, as well as DIT and DITE by IETcc (Spain).
Simultaneously, the company has been certified with ISO 9001 Quality Management Systems since
2012 (registration number: ES044036-1) and ISO 14001 Envir
onmental Management Systems
(registration number ES069274-1).
Name and location of production site(s): Poligono Industrial Sector 9, 19290 Fontanar, Guadalajara,
Spain.
PAGE 3/38
Product information
Product name: This EPD covers 6 types of acoustic insulation sheets for the construction sector: MAD2,
MAD4, MAD4 auto-adhesive, MAD6 and MAD6 auto-adhesive.
Product identification: the products’ names start with the abbreviation MAD (Membrana Acústica Danosa
– Danosa Acoustic Membrane) and the numeric codes that follow represent the thickness of each
product type (2, 4 and 6 mm).
Product description: These products are used for improvement of acoustic insulation on all types of
surfaces.
Each acoustic insulation membrane consists of a bituminous sheet with mineral fillers, coated on both
sides by a high-density polyethylene film (Fig. 1). Acoustically the sheet works as a plastic element
between rigid layers and is an effective substitute for lead; in turn, when places between elas
tic elements
it works as a membrane resonator (typical absorber at low frequencies).
Figure 1. DANOSA's acoustic sheet.
These sheets are commercialized in rolls of 1 m wide by 12 m long for MAD2, 6 m long for MAD4 and
4.5 m long for MAD6. They can be installed according to the following cases:
-
Between rigid elements such as laminated plasterboard to improve insulation at low frequencies,
both on vertical and horizontal walls.
-
Between elastic elements (fibers, rock wool) to increase the overall isolation of the acoustical
treatment, making a significant improvement at low frequencies through the membrane effect within
the mass-elastic-mass systems.
-
In industrial insulation as an anti-resonant material, providing acoustic mass to galvanized steel
plates.
The five products mentioned are produced in the same manufacturing site in Fontanar (Guadalajara,
Spain).
Regarding the emissions of VOC’s (volatile organic compounds), tests have been carried out on the
MAD4 sheet where
it is concluded that they meet the requirements of Class A + of Decree No. 2011321 of March 23rd, 2011, of the French Ministry of Ecology, Development Sustainable, Transport and
Housing. Therefore, based on the results obtained, the product is classified with the following distinctive
corresponding to the A + classification according to the aforementioned legislation:
PAGE 4/38
Description of the main components and / or constituent materials of the product
The following table indicates the composition of the acoustic insulation studied:
MAD 2
Component
MAD 4 autoadh.
MAD 4
MAD 6 Autoadh.
MAD 6
Kg/m²
%
Kg/m²
%
Kg/m²
%
Kg/m²
%
Kg/m²
%
Plastic film
0,02
0,62%
0,02
0,37%
0,02
0,41%
0,024
0,24%
0,024
0,26%
Modified
bitumen
1,26
39,09%
2,56
39,51%
2,28
39,45% 3,451 34,73%
3,95
42,16%
Fiberglass
felt
0,05
1,70%
0,05
0,85%
0,05
0,95%
0,55%
0,055
0,59%
Mineral
fillers
1,88
58,59%
3,85
59,29%
3,43
59,19% 6,408 64,48%
5,34
57,00%
0,0
55
Modified bitumen is made up of 96.00% bitumen and 4.00% synthetic polymers. Of these 2 components,
21% of the bitumen and 100% of the synthetic polymers are of recycled origin. Likewise, the paper that
covers the auto-adhesive sheets has been excluded.
The products do not include in its life cycle any dangerous substances included in the "Very High Impact
Candidate List for Authorization (SVHC)" in a percentage greater than 0.1% of the weight of the product.
Installation components:
PARAMETER
WEIGHT
(kg/m² declared)
Staples - Mechanical fixing:
0,00008 kg/m²
Glue
0,25 kg/m² (0,125 kg/m² per side)
The MAD2, MAD4 and MAD6 can be installed using staples or glue applied on both sides. The
manufacturer recommends staple installation.
The auto-adhesive MAD4 and auto-adhesive MAD6 do not require any additional components in their
installation.
Technical data
MAD2, MAD4, MAD4 auto-adhesive, MAD6 and MAD6 auto-adhesive sheets are manufactured under
the UNE-EN 13707: 2014 Flexibl
e sheets for waterproofing - Reinforced bitumen sheets for roof
waterproofing - Definitions and characteristics
PAGE 5/38
CLASSIFICATION
ACCORDING TO
EN STANDARDS
Bituminous sheets with mineral fillers, coated on both sides by a high-density
polyethylene film. Reference standard: UNE-EN 13707
NOMINAL
WEIGHT
3,24 kg/m
(MAD2)
6,49 kg/m²
(MAD4)
2 dB
(MAD2)
4 dB
(MAD4)
NOISE
REDUCTION
INDEX ( ΔRw)
5,79 kg/m²
(MAD4
Autoadhesive)
9,94 kg/m²
(MAD6)
4 dB
(MAD4
Autoadhesiva)
6 dB
(MAD6)
9,37 kg/m²
(MAD6
Autoadhesiva)
6 dB
(MAD6
Autoadhesiva)
UN CPC code: Not available.
Other codes for product classification: ECO Platform Nº 00001138.
LCA information
Functional unit: 1 m² of acoustic membrane installed for 50 years and with class E acoustic absorption.
Reference service life: 50 years, being considered the same as the useful life of the building.
Time and geographical representativeness: The primary data used has been obtained from Danosa’s
production plants for the ye
ar 2018 and is representative for all five products, as well as the production
processes.
This document will be used for B2B communication, with a global scope.
Data quality: All primary data has been provided by Danosa production center during the 2018 period.
Secondary data were obtained using SimaPro 9.2 software and Ecoinvent 3.3 and 3.5 databases.
The impact methodology used corresponds to CML-IA (baseline) v4.2 (September 2016).
The electricity mix considered corresponds to the year 2018 of the DANOSA Company (see Fig. 2.)
PAGE 6/38
Figure 2. Electricity mix Danosa 2018. Source: Adaptation from Ecoinvent Database v3.3.
Cut-off rules and load assignation:
More than 95% of the data for the total upstream inflows and the central module have been included.
The peel-off paper on MAD 4 Auto-adhesive and MAD 6 Auto-adhesive is excluded.
The general energy and waste data has been assigned based on the surface area of the product
(m²). The consumption of the specific process has been
measured with specific measuring
instruments. It is considered that for this production process there is no direct consumption of water nor
diesel.
Database(s) and LCA software used: Simapro 9.2 calculation software and Ecoinvent v3.3 and v3.5
LCA database of international prestigious were used for the development of this study.
Description of system boundaries: Cradle to grave (A + B + C)
LCA: Scenarios and additional technical information
PAGE 7/38
Stages of the Life Cycle
Life Cycle Flow Chart
A1. Supply of raw materials
Extraction of natural resources and manufacture of raw materials:
Modified bitumen, plastic film, fiberglass felt and cross-linked polyethylene foam.
A2. Transportation of raw materials
A3. Product manufacturing
1. Coating: Transfer of the bituminous mastic through the filter from the mixer to the coating
basin.
2. Reinforcements: The fiber felt passes through the mastic coating raft.
3. Lamination: The laminating or carriage rollers provide the sheet with th
e necessary amount
of mastic to achieve the weight of the sheet, a characteristic that defines the sheet and not the
thickness.
4. Water basin and cooling rollers: The sheet is cooled by immersion in the water basin, in
order for it to reach the compensator with a temperature close to room temperature.
5. Finish: Two-sided polyethylene coat.
6. Sheet folder and palletizer: The roll is made in the folder, cut to the preset length and applied
the corresponding seals. The rolls are then automatically stored on the pallet in the palletizer.
A4. Transport of the products to the construction site
A5. Product installation
B1-B7. Use
C1. Demolition, deconstruction of the product
C2. Transport to the waste treatment site
C3. Waste treatment
C4. Landfill
Product Stage, A1-A3
Supply of raw materials (A1)
Extraction of natural resources and manufacture of raw materials: Modified bitumen, plastic film,
fiberglass felt, cross-linked polyethylene foam.
PAGE 8/38
21% of the modified bitumen
is recycled. 4% of this content corresponds to recycled polymer. In the
ACV model, only 4% of recycled polymers have been considered, while all bitumen is considered to be
virgin material as there is no information available.
Raw material transportation (A2)
Transport of all raw materials considered in module A1, from the place of extraction, production and
treatment to the factory gate. It is considered only one way, as the return trip is allocated to another
system.
Manufacturing (A3)
This module considers all the manufacturing processes of bituminous sheets, including the energy
consumption of the manufacturing processes, the consumption of materials for packaging, as well as
the treatment of the waste generated, and the reuse of materials produced in said processes.
Construction process stage A4-A5
Product transport (A4)
Transport of the product, from the production plant to the place of installation.
Taking into account the volume of distribution and distance to each country, th
e ratios of km traveled
per m² of product during 2018 have been calculated.
As a result, an average of 250 km/m² by road has been obtained when the distribution is national, and
an average distance of 142,66 km/m² by road and 321.58 km/m² by ship, when the distribution is
international.
It is estimated that 80,35% of the distribution of MAD insulation membranes is national and 19.65% is
international.
PARAMETER
VALUE
(expressed in functional unit)
National distribution:
Type of fuel and consumption of
the vehicle or type of means of
transport used
Distance
International distribution: Truck of 1632 tn Euro 4 and a diesel
Truck with trailer with an
consumption of 0,38 liters per km and
average load of
Transoceanic Ship
7,5-16 Tn
National distribution:
250 km/m² (road)
Usable capacity (includes return
from unloaded transport)
International distribution:
321,58 km/m² (boat) 142,66 km/m²
(road)
% assumed in Ecoinvent
Apparent density
1612-1805 kg/m³
of the transported pro
duct
Usability factor in volume
1 (default)
Product installation and construction process (A5)
PAGE 9/38
This module includes the consumption of auxiliary materials in the installation process, as well as the
management of possible waste generated during this information module.
PARAMETER
VALUE (expressed in functional unit)
Secondary materials for MAD2 and
MAD4 installation (specified by
type)
Staples: 0,00008 kg/m² or Glue: 0,25 kg/m²
Consumption of other resources
None
Quantitative description of the type
of energy (regional mix) and its
consumption during the installation
process
Insignificant
Waste of materials at the place of
the work, before the waste
processing, generated during the
installation of the product
(specified by type)
MAD2:
0,0435
kg/m²
MAD4:
00435
kg/m²
MAD4
autoadhesive:
0,0535
kg/m²
Direct emissions to air, soil or
water
MAD6:
0,085
kg/m²
MAD4 autoadhesive: 0,107
kg/m²
Insignificant
Packaging waste (plastic and wood) are transported to
recycling plants located 50 km from the
construction site by 3,5-7,5 tn trucks.
Use stage B1-B7
Being a passive product within a construction, the use stage (including modules B1 to B7) is considered
negligible.
The reference useful life indicated in the applied PCRs, 50 years, is considered.
End of life
Demolition (C1)
The installed product is considered to be dismantle manually, therefore this stage does not require
energy or water consumption.
Transport (C2)
Transportation from the construction site once the product has been uninstalled (both the sheet and
the auxiliary installation materials (staples or glue) depends on the management system:
-
150 km in 3,5-7,5 tn trucks to waste treatment plant.
-
50 km in 3,5-7,5 tn trucks to landfill.
Treatment of waste for reuse, recovery or recycling (C3)
PAGE 10/38
It is considered that no treatment takes place prior to disposal.
Final elimination (C4)
It is considered that by mass, 89% of the waste goes to treatment plants for sub
sequent recycling and
11% to landfill.
For the management of waste generated, the European scenario for the year 2017 published in the
report of March 4th, 2019 (EUROSTAT 39/2019) was taken into consideration.
PARAMETER
VALUE (expressed in functional unit)
Waste collection process specified by type
11% to landfill, collected and mixed with the rest
of construction waste.
Recovery system specified by type
89% to treatment plant.
Discharge specified by type
11% to landfill.
Assumptions for the development of the scenario
The demolition waste is transported 50 km in
trucks of 3,5-7,5 tn Euro 4, to the place of final
treatment or deposit.
Modules declared, geographical scope, share of specific data (in GWP-GHG indicator) and data
variation:
Disposal
Reuse-RecoveryRecycling-potential
X
Waste processing
X
De-construction
demolition
Transport
X
Operational water use
X
Operational energy use
A5
Refurbishment
A4
Replacement
Construction installation
A3
Repair
Transp
ort
A2
Resource
recovery stage
Maintenance
Manufacturing
A1
End of life
stage
Use stage
Use
Transport
Construction
process stage
Raw material supply
Product
stage
B1
B2
B3
B4
B5
B6
B7
C1
C2
C3
C4
D
X
NR NR NR NR NR NR NR NR
X
X
X
MNE
(NR = Not Relevant, MNE = Module Not Evaluated)
PAGE 11/38
Environmental Information
Potential environmental impact
Results in absolute values (MAD2)
Potential environmental impact
Parameter
ENVIRONMENTAL IMPACTS
Abiotic resources depletion - elements
Depletion of abiotic resources - fossil fuels
Soil and water acidification
Depletion of the ozone layer
Global warming
Eutrophication
Photochemical ozone formation
Ud
A1-A3
A4-A5
A4
B1-B7
A5
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
(D)
Total
C2
C3
C4
3,43E-06 6,60E-07 7,79E-07
1,37E-07
0
4,48E-08
5,05E-06
MJ, net
calorific value 7,33E+01 3,37E+00 7,71E+00
5,11E-01
kg Sb eq
A1-A3
kg SO2 eq
1,00E-02 7,70E-04 1,38E-03
kg CFC-11 eq 7,79E-07 4,10E-08 7,80E-08
GWP kg C
O2
eq
1,92E+00 2,23E-01 2,67E-01
EP kg (PO4)3eq
1,35E-03 1,23E-04 1,80E-04
kg ethylene
eq
7,11E-04 3,80E-05 1,06E-04
PAGE 12/38
NR
0
8,48E-01
8,58E+01
1,09E-04
0
2,31E-04
1,25E-02
NR 6,16E-09
0
9,28E-09 MNE 9,13E-07
3,44E-02
1,79E-05
5,70E-06
0
0
0
3,41E-02
2,48E+00
3,95E-05
1,71E-03
1,08E-05
8,72E-04
Resources use
Parameter
Use of renewable primary energy excluding
primary renewable energy resources used
as feedstock
Use of renewable primary energy used as
raw material
RESOURCES USE
Total use of renewable primary energy
(primary energy and renewable primary
energy resources used as feedstock)
Use of non-renewable primary energy,
excluding non-renewable primary energy
resources used as feedstock
Use of non-renewable primary energy used
as raw material
Ud
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
Total use of non-renewable primary energy
(primary energy and renewable primary
energy re
sources used as feedstock)
MJ,
net calorific
value
Use of secondary materials
kg
MJ,
net calorific
value
MJ,
net calorific
value
Use of renewable secondary fuels
Use of non-renewable secondary fuels
Net use of freshwater resources
m3
A1-A3
A1-A3
A4-A5
A4
A5
B1-B7
B1 B2 B3 B4 B5 B6 B7 C1
C2
C1-C4
C3
C4
(D)
Total
6,10E-03
0
1,35E-02
5,66E+01
0
0
0
0
6,10E-03
0
1,35E-02
5,66E+01
5,52E-01
0
9,27E-01
9,57E+01
0
0
0
5,52E-01
0
9,27E-01
9,57E+01
0
0
0
2,66E-01
5,20E+01 3,66E-02 4,49E+00
0
0
0
5,20E+01 3,66E-02 4,49E+00
8,20E+01 3,64E+00 8,63E+00
0
0
0
8,20E+01 3,64E+00 8,63E+00
2,66E-01
0
0
NR
NR
MNE
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
2,71E-03
0
3,77E-02
6,18E-01
4,69E-01 1,74E-02 9,11E-02
PAGE 13/38
Waste flow
Parameter
Ud
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
kg
Non-hazardous waste eliminated
kg
3,01E-01 1,59E-01 3,39E-01
Radioactive waste eliminated
kg
4,28E-04 2,32E-05 4,18E-05
WASTE
FLOW
Hazardous waste eliminate
d
B1 B2 B3 B4 B5 B6 B7 C1
4,52E-05 2,16E-06 5,43E-06
PAGE 14/38
C1-C4
NR
(D)
Total
C2
C3
C4
3,73E-07
0
6,70E-07
NR 2,02E-02
0
5,39E-05
MNE
3,25E+00
4,07E+00
3,47E-06
0
5,29E-06
5,01E-04
Results in absolute values (MAD4)
Potential environmental impact
Parameter
ENVIRONMENTAL IMPACTS
Abiotic resources depletion - elements
Depletion of abiotic resources - fossil
fuels
Soil and water acidification
Depletion of the ozone layer
Global warming
Eutrophication
Photochemical ozone formation
Ud
kg Sb eq
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
3,96E-06 1,32E-06 8,96E-07
MJ, net calorific
value
1,25E+02 6,75E+00 1,25E+01
kg SO2 eq
1,39E-02 1,54E-03 1,80E-03
kg CFC-11 eq
1,44E-06 8,22E-08 1,39E-07
GWP kg CO2 eq 2,49E+00 4,46E-01 3,41E-01
EP kg (PO4)3eq
1,83E-03 2,46E-04 2,36E-04
kg ethylene eq
9,83E-04 7,61E-05 1,34E-04
PAGE 15/38
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
Total
C3
C4
2,75E-07
0
8,98E-08
6,54E-06
1,02E+00
NR
(D)
C2
0
1,70E+00
1,47E+02
2,19E-04
0
4,62E-04
1,80E-02
NR 1,23E-08
0
1,86E-08 MNE 1,69E-06
6,90E-02
0
6,84E-02
3,42E+00
7,92E-05
2,43E-03
2,17E-05
1,23E-03
3,59E-05
1,14E-05
0
0
Resources use
Parameter
Ud
Use of renewable primary energy
excluding primary renewable energy
resources used as feedstock
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
RESOURCES USE
Use of renewable primary energy used as
raw material
Total use of renewable primary energy
(primary energy and renewable primary
energy resources used as feedstock)
Use of non-renewable primary energy,
excluding non-renewable primary energy
resources used as feedstock
Use of non-renewable primary energy
used as raw material
Total use of non-renewable primary
energy (primary energy and renewable
primary energy resources used as
feedstock)
Use of secondary materials
Use of renewable secondary fuels
Use of non-renewable secondary fuels
Net use of freshwater resources
MJ,
net calorific
v
alue
kg
MJ,
net calorific
value
MJ,
net calorific
value
m3
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
(D)
Total
C2
C3
C4
1,22E-02
0
2,71E-02
5,68E+01
0
0
0
0
1,22E-02
0
2,71E-02
5,68E+01
1,11E+00
0
1,86E+00
1,61E+02
0
0
0
1,11E+00
0
1,86E+00
1,61E+02
5,21E+01 7,33E-02 4,51E+00
0
0
0
5,21E+01 7,33E-02 4,51E+00
1,37E+02 7,29E+00 1,37E+01
0
0
0
NR
NR
MNE
0
1,37E+02 7,29E+00 1,37E+01
5,39E-01
0
0
0
0
0
5,39E-01
0
0
0
0
0
0
0
0
0
0
0
0
0
0
5,42E-03
0
7,55E-02
8,24E-01
6,01E-01 3,48E-02 1,07E-01
PAGE 16/38
Waste flow
Parameter
Ud
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
kg
5,74E-05 4,33E-06 6,74E-06
Non-hazardous waste eliminated
kg
4,19E-01 3,19E-01 6,42E-01
Radioactive waste eliminated
kg
7,91E-04 4,64E-05 7,54E-05
WASTE
FLOW
Hazardous waste eliminated
PAGE 17/38
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
NR
C4
(D)
Total
C2
C3
7,47E-07
0
NR 4,05E-02
0
1,34E-06
7,06E-05
6,51E+00 MNE 7,93E+00
6,96E-
06
0
1,06E-05
9,31E-04
Results in absolute values (MAD4 autoadhesiva)
Potential environmental impact
Parameter
ENVIRONMENTAL IMPACTS
Abiotic resources depletion - elements
Depletion of abiotic resources - fossil
fuels
Soil and water acidification
Depletion of the ozone layer
Ud
kg Sb eq
A1-A3
A1-A3
B1-B7
A5
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
C2
1,02E-06 5,55E-07
2,45E-07
MJ, net calorific
value
1,14E+02 5,34E+00 1,30E+01
9,14E-01
kg SO2 eq
kg CFC-11 eq
3,85E-06
A4-A5
A4
1,31E-02
1,43E-03 1,62E-03
1,95E-04
NR
1,29E-06
NR
6,49E-08 1,48E-07
1,10E-08
2,37E+00 3,54E-01 3,05E-01
6,16E-02
Global warming
GWP kg CO2 eq
Eutrophication
EP kg (PO4)3eq
1,73E-03
2,11E-04 2,18E-04
3,21E-05
Photochemical ozone formation
kg ethylene eq
9,25E-04
6,64E-05 1,09E-04
1,02E-05
PAGE 18/38
C3
0
0
0
0
0
0
0
C4
(D)
Total
8,01E-08
5,74E-06
1,52E+00
1,35E+02
4,12E-04
1,68E-02
MNE
1,66E-08
1,54E-06
6,10E-02
3,15E+00
7,07E-05
2,26E-03
1,94E-05
1,13E-03
Resourc
es use
Parameter
Ud
Use of renewable primary energy
excluding primary renewable energy
resources used as feedstock
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
Use of renewable primary energy used as
raw material
RESOURCES USE
Total use of renewable primary energy
(primary energy and renewable primary
energy resources used as feedstock)
Use of non-renewable primary energy,
excluding non-renewable primary energy
resources used as feedstock
Use of non-renewable primary energy
used as raw material
Total use of non-renewable primary
energy (primary energy and renewable
primary energy resources used as
feedstock)
Use of secondary materials
Use of renewable secondary fuels
Use of non-renewable secondary fuels
Net use of freshwater resources
MJ,
net calorific
value
kg
MJ,
net calorific
value
MJ,
net calorific
value
m3
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
(D)
Total
C2
C3
C4
1,09
E-02
0
2,42E-02
5,78E+01
0
0
0
0
1,09E-02
0
2,42E-02
5,78E+01
9,88E-01
0
1,66E+00
1,48E+02
0
0
0
0
5,21E+01 6,02E-02 5,59E+00
0
0
0
5,21E+01 6,02E-02 5,59E+00
1,25E+02 5,77E+00 1,43E+01
0
0
0
NR
NR
MNE
9,88E-01
0
1,66E+00
1,48E+02
1,25E+02 5,77E+00 1,43E+01
4,80E-01
0
0
0
0
0
4,80E-01
0
0
0
0
0
0
0
0
0
0
0
0
0
0
4,84E-03
0
6,74E-02
7,46E-01
5,74E-01 2,77E-02 7,21E-02
PAGE 19/38
Waste flow
WASTE FLOW
Parameter
Ud
Hazardous waste eliminated
kg
Non-hazardous waste eliminated
kg
Radioactive waste eliminated
kg
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
5,48E-05 3,42E-06 6,43E-06
3,94E-01 2,45E-01 6,94E-01
7,13E-04 3,67E-05 8,19E-05
PAGE 20/38
C2
6,66E-07
NR
NR
3,62E-02
6,21E-06
C3
0
0
0
C4
(D)
1,20E-06
5,81E+00
9,47E-06
Total
6,65E-05
MNE
7,18E+00
8,47E-04
Results in absolute values (MAD6)
ENVIRONMENTAL IMPACTS
Potential environmental impact
Parameter
Ud
Abiotic resources depletion
- elements
kg Sb eq
Depletion of abiotic resources - fossil fuels
Eutrophication
Photochemical ozone formation
B1 B2 B3 B4 B5 B6 B7 C1
(D)
Total
3,88E-06 2,02E-06 1,07E-06
4,20E-07
0
1,37E-07
7,53E-06
MJ, net
calorific value 1,64E+02 1,03E+01 1,65E+01
1,57E+00
2,60E+00
1,95E+02
2,25E-02
kg CFC-11 eq
A5
C1-C4
C4
Depletion of the ozone layer
A4
B1-B7
C3
kg SO2 eq
A1-A3
A4-A5
C2
Soil and water acidification
Global warming
A1-A3
1,68E-02 2,36E-03 2,26E-03
1,88E-06 1,26E-07 1,83E-07
GWP kg CO2
2,99E+00 6,83E-01 4,29E-01
eq
EP kg (PO4)32,10E-03 3,77E-04 2,88E-04
eq
kg ethylene
1,12E-03 1,16E-04 1,61E-04
eq
PAGE 21/38
NR
NR
0
3,35E-04
0
7,07E-04
1,89E-08
0
2,85E-08
1,06E-01
0
1,05E-01
4,31E+00
5,50E-05
0
1,21E-04
2,94E-03
1,75E-05
0
3,32E-05
1,45E-03
MNE
2,23E-06
Resources use
Parameter
Use of renewable primary energy excluding
primary renewable energy resources used
as feedstock
RESOURCES USE
Use of renewable primary energy used as
raw material
Total use of renewable primary energy
(primary energy and renewable primary
energy resources used as feedstock)
Use of non-renewable primary energy,
excluding non-renewable primary energy
resources used as feedstock
Use of non-renewable primary energy used
as raw material
Total use of non-renewable primary energy
(primary energy and renewable primary
energy resources used as feedstock)
Use of secondary materials
Use of renewable secondary fuels
Use of non-renewable secondary fuels
Net use of freshwater resources
Ud
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
kg
MJ,
net calorific
value
MJ,
net calorific
value
m3
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
(D)
Total
C2
C3
C4
1,87E-02
0
4,14E-02
3,84E+01
0
0
0
0
1,87E-02
0
4,14E-02
3,84E+01
1,69E+00
0
2,84E+00
2,14E+02
0
0
0
1,69E+00
0
2,84E+00
3,52E+01 1,12E-01 3,09E+00
0
0
0
3,52E+01 1,12E-01 3,09E+00
1,80E+02 1,11E+01 1,82E+01
0
0
0
NR
NR
MNE
0
2,14E+02
1,80E+02 1,11E+01 1,82E+01
7,25E-01
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
8,30E-03
0
1,16E-01
1,17E+00
8,47E-01 5,32E-02 1,45E-01
PAGE 22/38
7,25E-01
Waste flow
Parameter
Ud
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
kg
6,05E-05 6,62E-06 7,62E-06
Non-hazardous waste eliminated
kg
4,89E-01 4,88E-01 9,63E-01
Radioactive waste eliminated
kg
1,04E-03 7,10E-05 9,99E-05
WASTE
FLOW
Hazardous waste eliminated
PAGE 23/38
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
NR
C4
(D)
Total
C2
C3
1,14E-06
0
NR 6,20E-02
0
2,06E-06
7,79E-05
9,96E+00 MNE 1,20E+01
1,06E-05
0
1,62E-05
1,23E-03
Results in absolute values (MAD6 Autoadhesiva)
ENVIRONMENTAL IMPACTS
Potential environmental impact
Parameter
Ud
Abiotic resources depletion - elements
kg Sb eq
Depletion of abiotic resources - fossil fuels
Eutrophication
Photochemical ozone formation
B1 B2 B3 B4 B5 B6 B7 C1
(D)
Total
3,87E-06 1,64E-06 6,30E-07
2,45E-07
0
1,29E-07
6,51E-06
MJ, net
calorific value 1,83E+02 8,63E+00 2,09E+01
9,14E-01
2,45E+00
2,16E+02
2,35E-02
kg CFC-11 eq
A5
C1-C4
C4
Depletion of the ozone layer
A4
B1-B7
C3
kg SO2 eq
A1-A3
A4-A5
C2
Soil and water acidification
Global warming
A1-A3
1,81E-02 2,32E-03 2,27E-03
2,12E-06 1,05E-07 2,42E-07
GWP kg CO2
3,14E+00 5,73E-01 4,14E-01
eq
EP kg (PO4)32,24E-03 3,41E-04 2,91E-04
eq
kg ethylene
1,21E-03 1,07E-04 1,45E-04
eq
PAGE 24/38
NR
NR
0
1,95E-04
0
6,67E-04
1,10E-08
0
2,68E-08
6,16E-02
0
9,87E-02
4,28E+00
3,21E-05
0
1,14E-04
3,01E-03
1,02E-05
0
3,13E-05
1,50E-03
MNE
2,50E-06
Resources use
Parameter
Use of renewable primary energy excluding
primary renewable energy resources used
as feedstock
Ud
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
MJ,
net calorific
value
(D)
Total
C2
C3
C4
1,09E-02
0
3,91E-02
3,91E+01
0
0
0
0
0
3,91E-02
3,91E+01
0
2,68E+00
2,36E+02
3,52E+01 9,72E-02 3,78E+00
RESOURCES USE
Use of renewable primary energy used as
raw material
Total use of renewable primary energy
(primary energy and renewable primary
energy resources used as feedstock)
Use of non-renewable primary energy,
excluding non-renewable primary energy
resources used as feedstock
Use of non-renewable primary energy used
as raw material
Total use of non-renewable primary energy
(primary energy and renewable primary
energy resources used as feedstock)
Use of secondary materials
Use of renewable secondary fuels
Use of non-renewable secondary fuels
Net use of freshwater resources
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
MJ,
net calorific
value
kg
MJ,
net calorific
value
MJ,
net calorific
value
m3
0
0
0
1,09E-02
3,52E+01 9,72E-02 3,78E+00
9,88E-01
2,00E+02 9,32E+00 2,28E+01
0
0
0
2,00E+02 9,32E+00 2,28E+01
8,69E-01
0
0
NR
NR
MNE
0
0
0
0
9,88E-01
0
2,68E+00
2,36E+02
0
0
0
8,69E-01
0
0
0
0
0
0
0
0
0
0
0
0
0
0
4,84E-03
0
1,09E-01
1,04E+00
7,82E-01 4,48E-02 1,01E-01
PAGE 25/38
Waste flow
Parameter
Ud
A1-A3
A1-A3
A4-A5
A4
B1-B7
A5
kg
6,36E-05 5,53E-06 7,68E-06
Non-hazardous waste eliminated
kg
4,92E-01 3,95E-01 1,10E+00
Radioactive waste eliminated
kg
1,17E-03 5,93E-05 1,34E-04
WASTE
FLOW
Hazardous waste eliminated
PAGE 26/38
C1-C4
B1 B2 B3 B4 B5 B6 B7 C1
NR
C4
(D)
Total
C2
C3
6,66E-07
0
NR 3,62E-02
0
1,94E-06
7,94E-05
9,39E+00 MNE 1,14E+01
6,21E-06
0
1,53E-05
1,38E-03
Conclusions
For the Danosa products evaluated, acoustic membranes MAD2, MAD4, MAD4 auto-adhesive, MAD6
and MAD6 auto-adhesive, most of the impacts occur during the product stage (obtaining raw materials,
transport and manufacturing).
There are no impacts associated with the use stage in the life cycle since bituminous sheets are passive
products within the building.
MAD2 acoustic insulation sheet
Most of the impacts occur during the product stage
. In fact, during this stage there are 77.48% of the
impacts associated with global warming, 85.50% of the impacts associated with the consumption of nonrenewable resources, 87.99% of the impacts associated with the consumption of energy and 75.90% of
the impacts associated with water consumption.
During the transportation stage there are 8.98% of the impacts associated with global warming, 3.93%
of the impacts associated with the consumption of non-renewable resources, 2.41% of the impacts
associated with the consumption of energy and 2.81% of the impacts associated with water
consumption.
In the product installation stage, 10.78% of the impacts associated with global warming are produced,
8.98% of the impacts associated with the consumption of non-renewable resources, 8.62% of the
impacts associated with the consumption of energy and 14.75% of the impacts associated with water
consumption.
There are no impacts associated with the use stage in the life cycle since bituminous membranes
are
passive products within the building.
During the end-of-life stage, the main associated impact is the generation of waste, corresponding to
79.83% of its total impact.
PAGE 27/38
Global
Warming
Potential
2,50
2,00
1,50
1,00
0,50
0,00
1,92
2,48
A1-A3
MAD 2
Consumption
of nonrenewable
resources(1)
80,00
0,27
0,22
0,03
0,03
kgCO2 eq./FU
A4 MAD 2 A5 MAD 2 C2 MAD 2 C4 MAD 2
73,35
60,00
40,00
85,78
20,00
3,37
7,71
0,51
0,85
MJ/FU
0,00
A1-A3 A4 MAD 2 A5 MAD 2 C2 MAD 2 C4 MAD 2
MAD 2
150,00
Energy
consumption(2)
134,00
100,00
152,30
50,00
3,67
13,12
0,56
0,94
MJ/FU
0,00
A1-A3 A4 MAD 2 A5 MAD 2 C2 MAD 2 C4 MAD 2
MAD 2
Water
consumption(3)
0,50
0,40
0,30
0,20
0,10
0,00
0,47
0,62
0,09
0,02
A1-A3
MAD 2
0,00
m³/FU
A4 MAD 2 A5 MAD 2 C2 MAD 2 C4 MAD 2
4,00
Waste
generated(4)
0,04
3,25
3,00
2,00
1,00
4,07
0,30
0,34
0,16
0,02
0,00
kg/FU
A1-A3 A4 MAD 2 A5 MAD 2 C2 MAD 2 C4 MAD 2
MAD 2
(1) This indicator corresponds to Abiotic depletion poten
tial for fossil resources
(2) This indicator corresponds to total use of primary energy resources
(3) This indicator corresponds to net use of water
(4) This indicator corresponds to the sum of wastes (hazardous, non hazardous and radiactives)
PAGE 28/38
MAD4 acoustic insulation sheet
Most of the impacts occur during the product stage. In fact, during this stage there are 72.94% of the
impacts associated with global warming, 85.04% of the impacts associated with the consumption of nonrenewable resources, 86.86% of the impacts associated with the consumption of energy and 72.94% of
the impacts associated with water consumption.
During the transportation stage, there is 13.06% of the impacts associated with global warming, 4.60%
of the impacts associated with the consumption of non-renewable resources, 3.38% of the impacts
associated with the consumption of energy and 4.22% of the impacts associated with water
consumption.
In the product installation stage, 9.97% of the impacts associ
ated with global warming occur, 8.51% of
the impacts associated with the consumption of non-renewable resources, 8.38% of the impacts
associated with the consumption of energy and 13.02% of the impacts associated with water
consumption.
There are no impacts associated with the use stage in the life cycle since bituminous membranes are
passive products within the building.
During the end-of-life stage, the main associated impact is the generation of waste, corresponding to
82.09% of its total impact.
PAGE 29/38
Global
Warming
Potential
3,00
2,50
2,00
1,50
1,00
0,50
0,00
2,49
3,42
0,45
A1-A3
MAD 4
Consumption
of nonrenewable
resources(1)
150,00
0,34
0,07
0,07
kgCO2eq./FU
A4 MAD 4 A5 MAD 4 C2 MAD 4 C4 MAD 4
124,88
100,00
146,85
50,00
6,75
12,49
1,02
1,70
MJ/FU
0,00
A1-A3 A4 MAD 4 A5 MAD 4 C2 MAD 4 C4 MAD 4
MAD 4
200,00
Energy
consumption(2
150,00
)
100,00
189,21
217,83
50,00
7,36
18,26
1,12
1,88
MJ/FU
0,00
A1-A3 A4 MAD 4 A5 MAD 4 C2 MAD 4 C4 MAD 4
MAD 4
0,80
Water
consumption(3
0,60
)
0,40
0,60
0,82
0,11
0,20
0,03
0,01
0,08
m³/FU
0,00
A1-A3 A4 MAD 4 A5 MAD 4 C2 MAD 4 C4 MAD 4
MAD 4
8,00
Waste
generated(4)
6,51
6,00
4,00
2,00
0,42
0,64
0,32
7,93
0,04
0,00
kg/FU
A1-A3 A4 MAD 4 A5 MAD 4 C2 MAD 4 C4 MAD 4
MAD 4
(1) This indicator corresponds to Abiotic depletion potential for fossil resources
(2) This indicator corresponds to total use of primary energy resources
(3) This indicator corresponds to net use of water
(4) This indicator corresponds to the sum of wastes (hazardous, non hazardous and radiactives)
PAGE 30/38
MAD4 auto-adhesive acoustic insulation sheet
Most of the impacts occur during the product stage. In fact, during this stage there are 75.22% of the
impacts associated with global warming, 84.56% of the impacts associated with the consumption of nonrenewable resources, 86.20% of the impacts associated with the consumption of energy and 76.94% of
the impacts associated with water consumption.
During
the transportation stage, 11.23% of the impacts associated with global warming occur, 3.97% of
the impacts associated with the consumption of non-renewable resources, 2.83% of the impacts
associated with the consumption of energy and 3.72% of the impacts associated with water
consumption.
In the product installation stage, the associated impacts are negligible since no auxiliary material is
necessary for its installation.
There are no impacts associated with the use stage in the life cycle since bituminous membranes are
passive products within the building.
During the end-of-life stage, the main associated impact is the generation of waste, corresponding to
80.93% of its total impact.
PAGE 31/38
Global
Warming
Potential
2,50
2,00
1,50
1,00
0,50
0,00
2,37
A1-A3
MAD 4
Auto
Consumption
of nonrenewable
resources(1)
120,00
100,00
80,00
60,00
40,00
20,00
0,00
0,30
0,35
3,15
0,06
0,06
kgCO2eq./FU
A4 MAD 4 A5 MAD 4 C2 MAD 4 C4 MAD 4
Auto
Auto
Auto
Auto
113,84
5,34
13,01
134,
the transportation stage, 11.23% of the impacts associated with global warming occur, 3.97% of
the impacts associated with the consumption of non-renewable resources, 2.83% of the impacts
associated with the consumption of energy and 3.72% of the impacts associated with water
consumption.
In the product installation stage, the associated impacts are negligible since no auxiliary material is
necessary for its installation.
There are no impacts associated with the use stage in the life cycle since bituminous membranes are
passive products within the building.
During the end-of-life stage, the main associated impact is the generation of waste, corresponding to
80.93% of its total impact.
PAGE 31/38
Global
Warming
Potential
2,50
2,00
1,50
1,00
0,50
0,00
2,37
A1-A3
MAD 4
Auto
Consumption
of nonrenewable
resources(1)
120,00
100,00
80,00
60,00
40,00
20,00
0,00
0,30
0,35
3,15
0,06
0,06
kgCO2eq./FU
A4 MAD 4 A5 MAD 4 C2 MAD 4 C4 MAD 4
Auto
Auto
Auto
Auto
113,84
5,34
13,01
134,
... ascunde