soda4LCA

Process Data set: Leca® 10-20 Coated (Small bags), Leca Denmark (en) en

A more recent version of this data set exists in the database.

Process information

Key Data Set Information
Location	NO
Geographical representativeness description	Denmark.
Reference year	2023
Name	Leca® 10-20 Coated (Small bags), Leca Denmark
Technical purpose of product or process	The EPD describes results for production of lightweight expanded clay aggregate in bags of 50 liters, labelled Leca® 10-20 Coated, from the factory in Hinge, Denmark. Each pallet has 20 bags of 50L of Leca® 10-20 Coated which makes up 1 m3 of Leca® 10-20 Coated per pallet. Lightweight expanded clay aggregate is a granular ceramic material made from natural clay (see process information below). The main characteristic of expanded clay is low density combined with high strength. Leca® 10-20 Coated is used in lightweight blocks and slabs, insulation fill, water treatment, lightweight fillings and geotechnical fills for thermal and sound insulation purposes. Thus Leca® 10-20 Coated is typically hidden in buildings or cast into concrete. The density of Leca® 10-20 Coated is 0,245 tonnes per m3. The thermal insulation is 0,095 W/mK. Further information or explanatory material may be obtained by contacting Leca Danmark A/S. The water content of the Leca® 10-20 Coated is 0 % when the Leca® 10-20 Coated is produced and packed in bags of 50 liters at Leca Danmark A/S Hinge. The storage conditions can change the water content of the Leca® 10-20 Coated up to 25%. Different waste are recovered in the production process both as fuels as clay additives. See additional Tech info. Leca® 10-20 Coated is produced by using nearby clay and transported by using a conveyer belt to the factory.
Classification	Class name : Hierarchy level EPDNorge: Construction / Insulation
General comment on data set	Data quality: Specific data for the product composition are provided by the manufacturer. The data represent the production of the declared product and were collected for EPD development in the year of study. Background data is based on EPDs according to EN 15804 and different LCA databases. The data quality of the raw materials in A1 is presented in the table below. Allocation: The allocation is made in accordance with the provisions of EN 15804+A2. Incoming energy and water and waste production in-house is allocated equally among all products through mass allocation. Effects of primary production of recycled materials is allocated to the main product in which the material was used. The recycling process and transportation of the material is allocated to this analysis. Cut-off criteria: All major raw materials and all the essential energy is included. The production processes for raw materials and energy flows with very small amounts (less than 1%) are not included. These cut-off criteria do not apply for hazardous materials and substances.
Copyright	Yes
Owner of data set	Leca International
Quantitative reference
Reference flow(s)	Leca® 10-20 Coated (Small bags), Leca Denmark - 1.0 * 1.0 m3 (Volume)
Biogenic carbon content	Carbon content (biogenic): 0.0 kg Carbon content (biogenic) - packaging: 10.335416675 kg
Time representativeness
Data set valid until	2028
Time representativeness description	"2023-11-14" - "2028-11-14"
Publication date	11-14-2023
Technological representativeness
Technology description including background system	Loose bulk density (Test method: EN 1097-3): 0,245 ton/m3 Particle density (Test method: EN 1097-6 Annex C & E): 400 Kg/m3 Compressibility and confined compressive strenght (Test method: EN 13055-1): 0,75 MPa Thermal conductivity (Test method: EN 12667): 0,095 W/mK Reaction to fire: A1

Modelling and validation

Subtype

specific dataset

LCA methodology report

NPCR 012:2018 Part B for Thermal insulation products

Data sources, treatment and representativeness

Documentation of data quality management

NPCR 012:2018 Part B for Thermal insulation products

Data source(s) used for this data set

NEPD-5285-4614_-Leca--10-20-Coated--Small-bags---Leca-Denmark-.pdf

Original EPDs

NEPD-5285-4614-EN

Completeness

Validation

Type of review
Independent external review

Reviewer name and institution
Elisabet Amat - GREENIZE projects

Compliance Declarations

Compliance

Compliance system name

EN 15804+A2

Approval of overall compliance

Fully compliant

Nomenclature compliance

Fully compliant

Methodological compliance

Fully compliant

Review compliance

Fully compliant

Documentation compliance

Fully compliant

Quality compliance

Fully compliant

Compliance

Compliance system name

ISO 14025

Approval of overall compliance

Fully compliant

Nomenclature compliance

Fully compliant

Methodological compliance

Fully compliant

Review compliance

Fully compliant

Documentation compliance

Fully compliant

Quality compliance

Fully compliant

Compliance

Compliance system name

ISO 21930

Approval of overall compliance

Fully compliant

Nomenclature compliance

Fully compliant

Methodological compliance

Fully compliant

Review compliance

Fully compliant

Documentation compliance

Fully compliant

Quality compliance

Fully compliant

Administrative information

Data generator
Data set generator / modeller	LCA.no AS
Data entry by
Time stamp (last saved)	2023-11-14T19:12:53
Data set format(s)	ILCD format EPD Data Format Extensions v1.2
Publication and ownership
UUID	8dd11ac5-3192-4c32-b419-0e96b1234844
Date of last revision	2023-10-26T13:42:55.0396198Z
Data set version	00.03.000
Registration authority	EPD Norway
Registration number	NEPD-5285-4614-EN
Owner of data set	Leca International
Copyright	Yes
License type	Free of charge for all users and uses
Access and use restrictions	None
Publisher	EPD Norway

Environmental indicators

Indicators of life cycle

Indicator	Direction	Unit	Raw material supply A1	Transport A2	Manufacturing A3	Transport A4	Installation A5	De-construction C1	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
Use of renewable primary energy (PERE)	Input	MJ	160.4	0.09198	61.68	0.218	0.0941	0.06409	0.4349	0	0.495	-126.5
Use of renewable primary energy resources used as raw materials (PERM)	Input	MJ	347	0	0	0	0	0	0	0	0	0
Total use of renewable primary energy resource (PERT)	Input	MJ	507.4	0.09198	61.68	0.218	0.0941	0.06409	0.4349	0	0.495	-126.5
Use of non renewable primary energy (PENRE)	Input	MJ	912.5	7.312	3.563	17.33	17.39	11.85	31.02	0	13.83	-466.7
Use of non renewable primary energy resources used as raw materials (PENRM)	Input	MJ	93.14	0	0	0	0	0	0	0	0	0
Total use of non renewable primary energy resource (PENRT)	Input	MJ	1006	7.312	3.563	17.33	17.39	11.85	31.02	0	13.83	-466.7
Use of secondary material (SM)	Input	kg	34.21	0	0	0	0.008545	0.00582	0.01237	0	0	-0.6897
Use of renewable secondary fuels (RSF)	Input	MJ	6.002	0.003217	0.003504	0.007626	0.002315	0.001577	0.01556	0	0.01027	-3.338
Use of non renewable secondary fuels (NRSF)	Input	MJ	180.2	0.01078	0.02972	0.02556	0.03407	0.0232	0.05549	0	0.02218	-2.613
Use of net fresh water (FW)	Input	m3	0.2391	0.000832	0.006355	0.001972	0.0008954	0.0006099	0.003246	0	0.01701	-0.3102
Hazardous waste disposed (HWD)	Output	kg	0.03255	0.0004001	1.012	0.0009482	0.000512	0.0003488	0.001568	0	0	-0.05145
Non hazardous waste dispose (NHWD)	Output	kg	2.592	0.6355	1.184	1.506	0.0206	0.01403	1.472	0	61.25	-3.24
Radioactive waste disposed (RWD)	Output	kg	0.0008759	0.00004993	0.00001713	0.0001183	0.0001208	0.00008225	0.0002095	0	0	-0.001388
Components for re-use (CRU)	Output	kg	0	0	0	0	0	0	0	0	0	0
Materials for recycling (MFR)	Output	kg	0.02334	0	0.1192	0	0.008262	0.005715	0.0001727	183.8	0	-0.5598
Materials for energy recovery (MER)	Output	kg	0.004452	0	0.00003185	0	0.0001546	0.00001772	0.01029	0	0	-0.03353
Exported electrical energy (EEE)	Output	MJ	0.003126	0	2.657	0	0.00008917	0.00006074	0.001192	0	0	-0.07297
Exported thermal energy (EET)	Output	MJ	0.0473	0	40.21	0	0.001349	0.0009189	0.01801	0	0	-1.104

Core environmental impact indicators

Indicator	Unit	Raw material supply A1	Transport A2	Manufacturing A3	Transport A4	Installation A5	De-construction C1	Transport C2	Disposal C4	Recycling Potential D
Abiotic depletion potential - fossil resources (ADPF)	MJ	1005	7.312	3.562	17.33	17.39	11.85	30.79	13.82	-466.7
Abiotic depletion potential - non-fossil resources (ADPE)	kg Sb-eqv.	0.0001686	0.000008021	0.00000661	0.00001901	0.00000194	0.000001321	0.00005525	0.000004525	-0.0006094
Acidification potential, Accumulated Exceedance (AP)	mol H+ eqv.	0.3167	0.001449	0.002184	0.003436	0.005701	0.003162	0.008342	0.004469	-0.367
Global Warming Potential - biogenic (GWP-biogenic)	kg CO2 eqv.	-38.42	0.0001928	0.5145	0.000457	0.0002387	0.0001614	0	0.0005866	-0.1134
Global Warming Potential - fossil fuels (GWP-fossil)	kg CO2 eqv.	98.27	0.4501	2.535	1.067	1.273	0.8671	2.042	0.5025	-46.02
Global Warming Potential - total (GWP-total)	kg CO2 eqv.	60.21	0.4505	3.05	1.068	1.274	0.8673	2.043	0.5032	-46.15
Global Warming Potential - land use and land use change (GWP-luluc)	kg CO2 eqv.	0.3551	0.0001371	0.0001535	0.0003251	0.00009962	0.00006785	0.0007142	0.0001235	-0.01798
Global warming potential except emissions and uptake of biogenic carbon (GWP-IOBC/GHG)	kg CO2 eqv.	20.86	0.4504	2.536	1.068	0.1987	0.198	2.034	0.5026	-46.15
Eutrophication potential - freshwater (EP-freshwater)	kg P eqv.	0.005564	0.000003582	0.000009158	0.000008489	0.000004602	0.000003134	0.00001605	0.000005695	-0.002287
Eutrophication potential - marine (EP-marine)	kg N eqv.	0.1151	0.0003174	0.001656	0.0007523	0.002094	0.00105	0.002475	0.001661	-0.04587
Eutrophication potential - terrestrial (EP-terrestrial)	mol N eqv.	1.272	0.00354	0.008677	0.008391	0.02308	0.01159	0.02732	0.01832	-0.5531
Photochemical Ozone Creation Potential (POCP)	kg NMVOC eqv.	0.3168	0.00139	0.002443	0.003295	0.006701	0.003556	0.008379	0.005246	-0.1494
Depletion potential of the stratospheric ozone layer (ODP)	kg CFC 11 eqv.	0.000001801	1.085E-7	4.64E-8	2.573E-7	2.729E-7	1.859E-7	4.533E-7	1.902E-7	-0.00000271
Water (user) deprivation potential (WDP)	m3 world eqv.	1.4E+3	5.606	-785.3	13.29	3.695	2.517	29.36	85.28	-863.3

Additional environmental impact indicators

Indicator	Unit	Raw material supply A1	Transport A2	Manufacturing A3	Transport A4	Installation A5	De-construction C1	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
¹This impact category deals mainly with the eventual impact of low dose ionizing radiation on human health of the nuclear fuel cycle. It does not consider effects due to possible nuclear accidents, occupational exposure nor due to radioactive waste disposal in underground facilities. Potential ionizing radiation from the soil, from radon and from some construction materials is also not measured by this indicator.
²The results of this environmental impact indicator shall be used with care as the uncertainties on these results are high or as there is limited experiences with the indicator.
Potential Human exposure efficiency relative to U235 (IRP)¹	kBq U235 eqv.	0.8799	0.03196	0.01244	0.07574	0.07452	0.05076	0.1348	0	0.06311	-0.9685
Potential incidence of disease due to PM emissions (PM)²	disease incidence	0.000005583	4.135E-8	2.591E-8	9.8E-8	9.986E-8	6.203E-8	1.348E-7	0	9.537E-8	-0.000003418
Potential Soil quality index (SQP)²	unitless	1095	8.382	2.531	19.87	2.207	1.503	21.23	0	53.23	-649.6
Potential Comparative Toxic Unit for humans - non-cancer effects (HTP-nc)²	CTUh	0.000001467	5.168E-9	2.69E-8	1.225E-8	8.036E-9	5.149E-9	2.45E-8	0	5.451E-9	-5.575E-7
Potential Comparative Toxic Unit for humans - cancer effects (HTP-c)²	CTUh	1.863E-8	0	9.43E-10	0	1.08E-9	7.22E-10	0	0	3.06E-10	-2.058E-8
Potential Comparative Toxic Unit for ecosystems (ETP-fw)²	CTUe	1226	5.346	14.98	12.67	9.517	6.482	22.68	0	7.543	-1129