EPD-IES-0025131:003

SERIE SR

The heat recovery units series SR are particularly suitable in environments where there is a need to reciprocate continuously stale air for example, local bars, gyms, locker rooms, offices etc. These equipments allow the renewal of the air of the environment allowing the recovery of part of the heat contained in the expelled air. The heat recovery unit series SR-E are equipped with a heat exchange cross-flow aluminum through which the expelled air transfers part of its heat to the fresh air before it is introduced into the environment. In all models, the storage box is made with structure of aluminum profiles and sandwich panels in galvanized sheet steel, thermally insulated with polyurethane foam, sp. 23mm. SR-series units are equipped with centrifugal fans and centrifugal single inlet with electronically commutated brushless motors. The units in the SR-E are produced in the version for installation in the ceiling, floor or wall.

General information

EPD OwnerIDROAIR SRL
Registration numberEPD-IES-0025131:003
PCR2019:14 Construction products (EN 15804+A2) 2.0.1
c-PCR2019:14-c-PCR-018 Ventilation components (c-PCR under PCR 2019:14) Adopted from EPD Norway
StatusValid
Initial version date2025-09-19
Validity date2030-09-18
EN 15804 compliantYes
Geographical scopeGlobal

Programme information

ProgrammeInternational EPD System
AddressEPD International AB Box 210 60 SE-100 31 Stockholm Sweden
Websitewww.environdec.com
E-mailsupport@environdec.com

Product category rules

CEN standard EN 15804 serves as the Core Product Category Rules (PCR)
Product Category Rules (PCR)PCR 2019:14 Construction products (EN 15804+A2) (2.0.1)
PCR review was conducted byThe Technical Committee of the International EPD System. See www.environdec.com for a list of members. Review chair: Rob Rouwette (chair), Noa Meron (co-chair). The review panel may be contacted via the Secretariat www.environdec.com/support.
Complementary Product Category Rules (c-PCR)PCR 2019:14-c-PCR-018 Ventilation components (c-PCR under PCR 2019:14) (Adopted from EPD Norway) Version: Adopted from EPD Norway
c-PCR review was conducted byThe Technical Committee of the International EPD System

Verification

LCA accountabilitySERENA MANTOVANI, commerciale@idroair.eu, IDROAIR SRL
Independent third-party verification of the declaration and data, according to ISO 14025:2006, via
Third-party verifierTÜV Italia S.r.l.
Accredited byAccredia
Accredited certification body addressItaly
Procedure for follow-up of data during EPD validity involves third party verifier
*EPD Process Certification involves an accredited certification body certifying and periodically auditing the EPD process and conducting external and independent verification of EPDs that are regularly published. More information can be found in the General Programme Instructions on www.envrondec.com.

Ownership and limitation on use of EPD

Limitations

EPDs within the same product category but published in different EPD programmes, may not be comparable. For two EPDs to be comparable, they shall be based on the same PCR (including the same first-digit version number) or be based on fully aligned PCRs or versions of PCRs; cover products with identical functions, technical performances and use (e.g. identical declared/functional units); have identical scope in terms of included life-cycle stages (unless the excluded life-cycle stage is demonstrated to be insignificant); apply identical impact assessment methods (including the same version of characterisation factors); and be valid at the time of comparison.

Ownership

The EPD Owner has the sole ownership, liability, and responsibility for the EPD.

Information about EPD Owner

EPD OwnerIDROAIR SRL
Contact person nameSERENA MANTOVANI
Contact person e-mailinfo@idroair.eu
Organisation addressItaly Bovolone 37051 via dossi 1

Description of the organisation of the EPD Owner

IDROAIR SRL is an industrial reality based in Bovolone (Verona). The company has succeeded to develop a long-term strategy and an important commercial network thanks to design experience of technical figures and skilled manpower and also thanks to high-quality materials. Company policy consists of constant product development and improvement of service.

Organisation logo

Product information

Product nameSR15
Product identificationHeat recovery units
Product descriptionThe heat recovery units series SR are particularly suitable in environments where there is a need to reciprocate continuously stale air for example, local bars, gyms, locker rooms, offices etc. These equipments allow the renewal of the air of the environment allowing the recovery of part of the heat contained in the expelled air. The heat recovery unit series SR-E are equipped with a heat exchange cross-flow aluminum through which the expelled air transfers part of its heat to the fresh air before it is introduced into the environment. In all models, the storage box is made with structure of aluminum profiles and sandwich panels in galvanized sheet steel, thermally insulated with polyurethane foam, sp. 23mm. SR-series units are equipped with centrifugal fans and centrifugal single inlet with electronically commutated brushless motors. The units in the SR-E are produced in the version for installation in the ceiling, floor or wall.
Technical purpose of productEurope market, 90% Italian market. Installation for commercial areas, hospitals, ecc.
Manufacturing or service provision description1. PROCUREMENT 2. RAW MATERIALS PROCESSING 3. ASSEMBLY 4. PRE-SHIPPING & TRANSPORT 5. ON-SITE INSTALLATION AND COMMISSIONING
Material propertiesVolumetric mass density: 169.42 kg/m3
Manufacturing siteIDROAIR SRL Italy BOVOLONE 37051 VIA DOSSI 1
UN CPC code4391. Gas generators; distilling plant; air conditioning and refrigerating equipment; filtering machinery
Geographical scopeGlobal
Geographical scope descriptionA1-A2 (EUR), A3 (ITA), C1-C4 (ITA)
Actual or technical lifespan20 year(s)

Product images

Content declaration

Content declaration of multiple productsThe mass (weight) of one unit of a product, as purchased or per declared unit: product mass 169,42 kg without packaging.
Hazardous and toxic substancesThe product does not contain any substances from the SVHC candidate list in concentrations exceeding 0.1% of its weight.
Product content
Content nameMass, kgPost-consumer recycled material, mass-% of productBiogenic material, mass-% of productBiogenic material1, kg C/declared unit
FeZn Sheet Metal36.574000
Liquid Expanded Polyurethane15.99000
Aluminium Profiles71.84000
PVC Corners/Fittings/Handles1.9000
Synthetic Filter M54.2000
Pocket Filter F75.8000
Small Hexagonal Plate Heat Exchanger14000
Plug Fan EC Brushless18000
Accessories - Electrical Components for Control1.12000
Total169.424000
Note 11 kg biogenic carbon is equivalent to 44/12 kg of CO2
Packaging materials
Material nameMass, kgMass-% (versus the product)Biogenic material1, kg C/declared unit
Pallet20128.2
Cardboard0.130
LDPE roll0.4300
PET strapping / tie roll0.1200
Adhesive Tape0.0400
Total20.72128.2
Note 11 kg biogenic carbon is equivalent to 44/12 kg of CO2

LCA information

EPD based on declared or functional unitDeclared unit
Declared unit and reference flowSR15 Mass: 1 kg
Conversion factor to mass1
Are infrastructure or capital goods included in any upstream, core or downstream processes?
Datasources used for this EPDecoinvent database (general) ecoinvent 3.11 database
LCA SoftwareSimaPro SimaPro 9.6
Version of the EN 15804 reference packageEF Reference Package 3.1
Characterisation methodsEF 3.1
Technology description including background systemAverage indoor operating temperatures: 20°C at 55% relative humidity (winter), 24°C at 55% relative humidity (summer). Average outdoor temperatures: 0°C at 80% relative humidity (winter), 35°C at 50% relative humidity (summer). Description of system boundaries: Cradle to gate with modules C1–C4 and module D (A1–A3 + C + D);
Scrap (recycled material) inputs contribution levelLess than 10% of the GWP-GHG results in modules A1-A3 come from scrap inputs

Data quality assessment

Description of data quality assessment and reference yearsThe data quality was assessed in accordance with the Commission Recommendation 2013/179/EU (PEF) and UNI EN 15804:2019 (Annex E). For each dataset, three scores were assigned related to temporal representativeness (TiR), technical representativeness (TeR), and geographical representativeness (GR), following the criteria set out in Table 5 of the PEF Recommendation. The overall Data Quality Rating (DQR) was then calculated as the arithmetic mean of these three values: DQR = (TiR + TeR + GR) / 3. Based on the obtained value, datasets were classified into quality levels ranging from “excellent” to “poor,” with only those achieving at least a “good quality” level being considered acceptable. Overall, the data quality was considered “ good” and no data were excluded from the analysis in the LCA report.
Data quality assessment
Process nameSource typeSourceReference yearData categoryShare of primary data, of GWP-GHG results for A1-A3
polyurethane foamCompany data Ecoinvent 3.112024primary7%
FeZn sheet metal Company data Ecoinvent 3.112024primary5%
Total share of primary data, of GWP-GHG results for A1-A312%
The share of primary data is calculated based on GWP-GHG results. It is a simplified indicator for data quality that supports the use of more primary data to increase the representativeness of and comparability between EPDs. Note that the indicator does not capture all relevant aspects of data quality and is not comparable across product categories.
Comment on the data sources and other information in the tableWithin modules A1–A3, 17% of the GWP-GHG results are based on primary data. The table reports the processes and materials that contribute to the share of primary data, of GWP-GHG results for A1-A3. However the main contribution for the overal share of GWP-GHG results for A1-A3, is represented by the aluminium profiles, a secondary data accounting alone for the
Electricity data
Electricity used in the manufacturing process in A3 (A5 for services)
Type of electricity mixResidual electricity mix on the market
Energy sourcesHydro0%
Wind1%
Solar0%
Biomass2%
Geothermal0%
Waste0%
Nuclear0%
Natural gas69%
Coal7%
Oil5%
Peat0%
Other16%
GWP-GHG intensity (kg CO2 eq./kWh)3.72 kg CO2 eq./kWh
Method used to calculate residual electricity mixThe dataset describes the residual mix on the low voltage level in Italy. The shares have been calculated based on statistics from AIB (2023) following the methodology of grexel (2020).

System boundary

Description of the system boundarya) Cradle to gate with modules C1-C4 and module D (A1-A3 + C + D).
Excluded modulesNo, there is no excluded module, or there are no excluded modules

Declared modules

Product stageConstruction process stageUse stageEnd of life stageBeyond product life cycle
Raw material supplyTransportManufacturingTransport to siteConstruction installationUseMaintenanceRepairReplacementRefurbishmentOperational energy useOperational water useDe-construction demolitionTransportWaste processingDisposalReuse-Recovery-Recycling-potential
ModuleA1A2A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Modules declaredXXXNDNDNDNDNDNDNDNDNDXXXXX
GeographyEuropeEuropeItalyN/AN/AN/AN/AN/AN/AN/AN/AN/AItalyItalyItalyItalyItaly
Share of specific data12%--------------
Variation - products0%--------------
Variation - sites0%--------------
DisclaimerThe share of specific/primary data and both variations (products and sites) refer to GWP-GHG results only.

Process flow diagram(s) related images

Default scenario

Name of the default scenarioRecycling and Disposal Scenario for Air Treatment Units
Description of the default scenarioAs with EPD EPD-IES-0026332:001, a single end-of-life scenario has been indicated. Therefore, it is not considered necessary to create an alternative scenario. For the scenarios of modules C3 and C4, NPCR was followed (Table 4, section 6.3.8.4). According to the material type 68,2% of recycling was associated to both aluminum and steel in module C3, the remaining 31,8% is sent to landfilling in module C4. According to waste diversion from landfills in Europe, 17% of plastic, mineral wool, and electronics are sent to landfill in C4. And the remaining 83% in module C3 is sent to sorting and shredding.

Module C: End-of-life

Explanatory name of the default scenario in module CEnd-of-life
Brief description of the default scenario in module CDeconstruction, transport to waste processing and waste processing.
Description of the default scenario in module CFor the scenarios of modules C3 and C4, NPCR was followed (Table 4, section 6.3.8.4). According to the material type 68,2% of recycling was associated to both aluminum and steel in module C3, the remaining 31,8% is sent to landfilling in module C4. According to waste diversion from landfills in Europe, 17% of plastic, mineral wool, and electronics are sent to landfill in C4. And the remaining 83% in module C3 is sent to sorting and shredding.

Reference service life

Description of the default scenario in reference service life25 years with regular maintenance
Reference service life informationValueUnit
Reference service life
25
year(s)

Module D: Beyond product life cycle

Explanatory name of the default scenario in module DResource recovery stage
Brief description of the default scenario in module DThe benefits of recyclable materials.
Description of the default scenario in module DThe benefits of recycled metals in module C3 were considered to have a possible environmental benefit as substituted material.
Module D informationValueUnit
Aluminium, Steel68,2
%
plastic, mineral wool, and electronics83
%

Environmental performance

The estimated impact results are only relative statements, which do not indicate the endpoints of the impact categories, exceeding threshold values, safety margins and/or risks.

Mandatory environmental performance indicators according to EN 15804

Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Climate change - totalGWP-totalkg CO2 eq.1.31E+0NDNDNDNDNDNDNDNDND0.00E+02.90E+03.51E+03.76E+01.34E+0
Climate change - fossilGWP-fossilkg CO2 eq.1.35E+0NDNDNDNDNDNDNDNDND0.00E+02.89E+01.82E+03.76E+01.34E+0
Climate change - biogenicGWP-biogenickg CO2 eq.4.40E+0NDNDNDNDNDNDNDNDND0.00E+01.98E+01.68E+03.31E+02.62E+0
Climate change - land use and land-use changeGWP-luluckg CO2 eq.4.81E+0NDNDNDNDNDNDNDNDND0.00E+09.46E+08.19E+03.59E+05.06E+0
Ozone depletionODPkg CFC-11 eq.1.70E+0NDNDNDNDNDNDNDNDND0.00E+05.75E+01.10E+01.02E+09.05E+0
AcidificationAPmol H+ eq.1.09E+0NDNDNDNDNDNDNDNDND0.00E+09.05E+06.18E+02.50E+01.09E+0
Eutrophication aquatic freshwaterEP-freshwaterkg P eq.8.07E+0NDNDNDNDNDNDNDNDND0.00E+01.93E+01.26E+04.43E+08.57E+0
Eutrophication aquatic marineEP-marinekg N eq.1.69E+0NDNDNDNDNDNDNDNDND0.00E+03.05E+02.90E+02.15E+01.77E+0
Eutrophication terrestrialEP-terrestrialmol N eq.2.17E+0NDNDNDNDNDNDNDNDND0.00E+03.32E+03.09E+01.03E+01.95E+0
Photochemical ozone formationPOCPkg NMVOC eq.5.75E+0NDNDNDNDNDNDNDNDND0.00E+01.42E+09.11E+03.69E+05.72E+0
Depletion of abiotic resources - minerals and metalsADP-minerals&metals1kg Sb eq.1.97E+0NDNDNDNDNDNDNDNDND0.00E+09.25E+05.83E+07.13E+02.35E+0
Depletion of abiotic resources - fossil fuelsADP-fossil1MJ, net calorific value1.66E+0NDNDNDNDNDNDNDNDND0.00E+04.06E+08.96E+08.61E+01.40E+0
Water useWDP1m3 world eq. deprived3.15E+0NDNDNDNDNDNDNDNDND0.00E+01.67E+01.30E+03.47E+02.40E+0
AcronymsGWP-fossil = Global Warming Potential fossil fuels; GWP-biogenic = Global Warming Potential biogenic; GWP-luluc = Global Warming Potential land use and land use change; ODP = Depletion potential of the stratospheric ozone layer; AP = Acidification potential, Accumulated Exceedance; EP-freshwater = Eutrophication potential, fraction of nutrients reaching freshwater end compartment; EP-marine = Eutrophication potential, fraction of nutrients reaching marine end compartment; EP-terrestrial = Eutrophication potential, Accumulated Exceedance; POCP = Formation potential of tropospheric ozone; ADP-minerals&metals = Abiotic depletion potential for non-fossil resources; ADP-fossil = Abiotic depletion for fossil resources potential; WDP = Water (user) deprivation potential, deprivation-weighted water consumption
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).
Disclaimer 1The results of this environmental impact indicator shall be used with care as the uncertainties of these results are high or as there is limited experience with the indicator

Additional mandatory environmental performance indicators

Impact categoryIndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
Climate change - GWP-GHGGWP-GHG1kg CO2 eq.1.34E+0NDNDNDNDNDNDNDNDND0.00E+02.87E+01.82E+03.73E+01.33E+0
AcronymsGWP-GHG = Global warming potential greenhouse gas.
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).
Disclaimer 1The GWP-GHG indicator is termed GWP-IOBC/GHG in the ILCD+EPD+ data format. The indicator accounts for all greenhouse gases except biogenic carbon dioxide uptake and emissions and biogenic carbon stored in the product. As such, the indicator is identical to GWP-total except that the CF for biogenic CO2 is set to zero.

Resource use indicators according to EN 15804

IndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
PEREMJ, net calorific value2.98E+0NDNDNDNDNDNDNDNDND0.00E+06.66E+01.69E+02.07E+02.59E+0
PERMMJ, net calorific value1.99E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+00.00E+01.99E+01.99E+0
PERTMJ, net calorific value2.98E+0NDNDNDNDNDNDNDNDND0.00E+06.66E+01.69E+08.56E+02.57E+0
PENREMJ, net calorific value1.65E+0NDNDNDNDNDNDNDNDND0.00E+04.06E+08.96E+03.01E+01.42E+0
PENRMMJ, net calorific value2.15E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+00.00E+02.15E+02.15E+0
PENRTMJ, net calorific value1.66E+0NDNDNDNDNDNDNDNDND0.00E+04.06E+08.96E+08.62E+01.40E+0
SMkg0.00E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
RSFMJ, net calorific value0.00E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
NRSFMJ, net calorific value0.00E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
FWm31.40E+0NDNDNDNDNDNDNDNDND0.00E+05.56E+03.37E+08.29E+01.26E+0
AcronymsPERE = Use of renewable primary energy excluding renewable primary energy resources used as raw materials; PERM = Use of renewable primary energy resources used as raw materials; PERT = Total use of renewable primary energy resources; PENRE = Use of non-renewable primary energy excluding non-renewable primary energy resources used as raw materials; PENRM = Use of non-renewable primary energy resources used as raw materials; PENRT = Total use of non-renewable primary energy re-sources; SM = Use of secondary material; RSF = Use of renewable secondary fuels; NRSF = Use of non-renewable secondary fuels; FW = Use of net fresh water.
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).

Waste indicators according to EN 15804

IndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
HWDkg9.30E+0NDNDNDNDNDNDNDNDND0.00E+02.74E+06.38E+05.64E+08.43E+0
NHWDkg6.37E+0NDNDNDNDNDNDNDNDND0.00E+01.93E+07.22E+04.47E+04.73E+0
RWDkg2.30E+0NDNDNDNDNDNDNDNDND0.00E+01.29E+01.90E+01.47E+01.54E+0
AcronymsHWD = Hazardous waste disposed; NHWD = Non-hazardous waste disposed; RWD = Radioactive waste disposed.
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).

Output flow indicators according to EN 15804

IndicatorUnitA1-A3A4A5B1B2B3B4B5B6B7C1C2C3C4D
CRUkg0.00E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
MFRkg5.66E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+01.42E+00.00E+07.39E+0
MERkg0.00E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+02.79E+00.00E+00.00E+0
EEEMJ, net calorific value0.00E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
EETMJ, net calorific value0.00E+0NDNDNDNDNDNDNDNDND0.00E+00.00E+00.00E+00.00E+00.00E+0
AcronymsCRU = Components for re-use; MFR = Materials for recycling; MER = Materials for energy recovery; EEE = Exported electrical energy; EET = Exported thermal energy.
General disclaimerThe results of the end-of-life stage (modules C1-C4) should be considered when using the results of the product stage (modules A1-A3/A1-A5 for services).

Information related to EPDs of multiple products

Justification for why this is representativeThe heat recovery units series SR are particularly suitable in environments where there is a need to reciprocate continuously stale air for example, local bars, gyms, locker rooms, offices etc. These equipments allow the renewal of the air of the environment allowing the recovery of part of the heat contained in the expelled air. The heat recovery unit series SR-E are equipped with a heat exchange cross-flow aluminum through which the expelled air transfers part of its heat to the fresh air before it is introduced into the environment. In all models, the storage box is made with structure of aluminum profiles and sandwich panels in galvanized sheet steel, thermally insulated with polyurethane foam, sp. 23mm. SR-series units are equipped with centrifugal fans and centrifugal single inlet with electronically commutated brushless motors. The units in the SR-E are produced in the version for installation in the ceiling, floor or wall. List of products of the SR serie: SR15, SR12HD, SR10, SR10T, SR09HD, SR06T, SR06HD, SR05, SR03T e SR01.

Abbreviations

NOT APPLICABLE

References

a) General Programme Instructions of the International EPD® System. Version 5.0.1

b) PCR 2019:14. CONSTRUCTION PRODUCTS 2.0.1

c) c-PCR-018 Ventilation components (Adapted from EPD Norway, "Part B for ventilation com ponents" NPCR 030 version 1.1)

d) Report LCA_Idroair_2024_rev02

e) For the development of the inventory and the calculation of eco-profiles, the SimaPro 9 software was used, and the database "ECOINVENT 3.11" was selected. To characterize the inventory data in relation to the various impact categories relevant to the system under analysis, the "EN 15804 +A2 Method" was applied as the calculation method.

Version history

First year certification, original version of the EPD

Version 001, 2025-09-19

Original version of the EPD