Process Data set: LAPP ÖLFLEX CLASSIC 110 CY 12G0,75 (en)

Process Data set: LAPP ÖLFLEX CLASSIC 110 CY 12G0,75 (en) en

Process information

Key Data Set Information
Location	FR
Geographical representativeness description	Norway
Reference year	2025
Name	LAPP ÖLFLEX CLASSIC 110 CY 12G0,75
Use advice for data set	1m LAPP ÖLFLEX CLASSIC 110 CY 12G0,75 El.nr: 1090614
Technical purpose of product or process	ÖLFLEX CLASSIC 110 CY cables are VDE approved power and control cables for occasional flexible use and fixed installation for medium mechanical load conditions. They are also suitable for use in dry, damp or wet areas. If using outdoors, observe the indicated temperature range and use with UV protection. They are largely resistant to acids, alkalis and certain oils at room temperature. They are suitable for occasional, non-automated movements. The maximum tensile load is 15 N/mm² of conductor cross-section during installation and operation. Compulsory guidance is not permitted. The screening braid protects against interference from electrical fields. Application range: As power and connecting cable for control systems in machine tools, plant engineering and construction, industrial machin-ery, heating and air-conditioning systems, conveyor systems, production and assembly lines as well as in measuring and control technology and data processing systems. Design Design based on EN 50525-2-51 IEC 60227-5 Certification ? VDE-REG 7030 ? limited to following dimension range: 0.5 mm² - 2.5 mm² 2 - 65 cores 4 mm² - 16 mm² 2 - 7 cores 25 mm² - 120 mm² 2 - 5 cores EN 13501-6 and EN 50575 Classification of fire behaviour (article/dimension range see www.lappkabel.com/cpr) Conductor fine wire strands of bare copper, acc. to IEC 60228 resp. EN IEC 60228, Class 5 Insulation PVC compound TI2 acc. to EN 50363-3 with increased requirements acc. to Lapp specification Core identification code acc. to VDE 0293-1, with or without GN/YE ground conductor black cores with white numbers acc. to DIN EN 50334 Cable assembly cores are stranded in layers Inner sheath PVC compound TM2 acc. to EN 50363-4-1 colour: silver grey, similar RAL 7001 Screen braid of tinned copper, coverage = 85 % (nominal value) Outer sheath PVC compound TM2 acc. to EN 50363-4-1 colour: transparent
Classification	Class name : Hierarchy level EPDNorge: Construction / Electronic and electrical components and products
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. 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	Lapp Norway AS
Quantitative reference
Reference flow(s)	LAPP ÖLFLEX CLASSIC 110 CY 12G0,75 - 1.0 * 1.0 m (Length)
Biogenic carbon content	Carbon content (biogenic): 0.0 kg Carbon content (biogenic) - packaging: 0.002067083335 kg
Time representativeness
Data set valid until	2030
Time representativeness description	2025-04-30 - 2030-04-30
Publication date	04-30-2025
Technological representativeness
Technology description including background system	Electrical properties at 20 °C Transfer impedance max. 250 m?/m (at 30 MHz) Nominal voltage U0 /U: 300/500V Test voltage core / core: 4000 V AC core / screen: 4000 V AC Mechanical and thermal properties Minimum bending radius occasional flexing: 20 x outer diameter fixed installation: 6 x outer diameter Temperature range occasional flexing: - 5°C up to +70°C max. conductor temp. fixed installation: - 40°C up to +80°C max. conductor temp. Flammability flame retardant acc. to IEC 60332-1-2 resp. EN 60332-1-2 . Tests acc. to IEC 60811 resp. EN 60811, EN 50395, EN 50396 General requirements These cables are conform to the EU-Directive 2014/35/EU (Low Voltage Directive). A part of these cables (see www.lappkabel.com/cpr) are classified in accordance with the EU-Regulation no. 305/2011 (CPR). Environmental information These cables meet the substance-specific requirements of the EU Directive 2011/65/EU (RoHS).

Modelling and validation

Subtype

specific dataset

LCA methodology report

NPCR 027 Part B for Electrical cables and wires

Data sources, treatment and representativeness

Documentation of data quality management

NPCR 027 Part B for Electrical cables and wires

Data source(s) used for this data set

ecoinvent database (all versions)

Original EPDs

NEPD-9903-9856_-LAPP---LFLEX-CLASSIC-110-CY-12G0-75.pdf

Completeness

Validation

Type of review
Independent external review

Reviewer name and institution
Vito D’Incognito

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)	2025-05-19T13:59:54
Data set format(s)	ILCD format EPD Data Format Extensions v1.2
Publication and ownership
UUID	9c647e19-dbaf-46fa-9bfb-b0288a688aca
Date of last revision	2025-04-28T14:47:54.5342487Z
Data set version	00.03.000
Registration authority	EPD Norway
Registration number	NEPD-9903-9856
Owner of data set	Lapp Norway AS
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	Operational energy use B6	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
Use of renewable primary energy (PERE)	Input	MJ	2.748	0.005488	0.2514	0.009917	0.05405	106.4	0.0007423	0.01178	0.004494	-1.074
Use of renewable primary energy resources used as raw materials (PERM)	Input	MJ	0.0694	0	0	0	-0.06593	0	0	0	0	0
Total use of renewable primary energy resource (PERT)	Input	MJ	2.817	0.005488	0.2514	0.009917	-0.01188	106.4	0.0007423	0.01178	0.004494	-1.074
Use of non renewable primary energy (PENRE)	Input	MJ	13.05	0.3834	1.654	0.7884	0.3234	8.229	0.05185	0.09227	0.04206	-1.968
Use of non renewable primary energy resources used as raw materials (PENRM)	Input	MJ	1.506	0	0	0	0.02394	0	0	-1.957	0	0
Total use of non renewable primary energy resource (PENRT)	Input	MJ	14.55	0.3834	1.654	0.7884	0.3473	8.229	0.05185	-1.865	0.04206	-1.968
Use of secondary material (SM)	Input	kg	0.03	0	0	0	0.0004276	0	0	0	0.000001153	0.06287
Use of renewable secondary fuels (RSF)	Input	MJ	0.0715	0.0001964	0.001814	0.0003469	0.00113	0.08358	0.00002656	0.0002129	0.00009599	0.005924
Use of non renewable secondary fuels (NRSF)	Input	MJ	0.001916	0.0007021	0.004628	0.001163	0.0003194	0.2082	0.00009495	0	0.0001357	-0.005122
Use of net fresh water (FW)	Input	m3	0.01778	0.000041	0.001526	0.00008971	0.0003896	0.7949	0.000005545	0.002207	0.00005136	-0.005622
Hazardous waste disposed (HWD)	Output	kg	0.01039	0.00001977	0.003326	0.00004313	0.0003734	0.005276	0.000002674	0	0.003157	-0.002436
Non hazardous waste dispose (NHWD)	Output	kg	0.3745	0.01865	0.01596	0.06852	0.01467	0.633	0.002522	0	0.1224	-0.1047
Radioactive waste disposed (RWD)	Output	kg	0.0000536	0.000002612	0.00002099	0.000005383	0.000002021	0.00007358	3.532E-7	0	2.517E-7	-0.000002415
Components for re-use (CRU)	Output	kg	0	0	0	0	0	0	0	0	0	0
Materials for recycling (MFR)	Output	kg	0	0	0.01209	0	0.002015	0	0	0.1062	0.000004081	-0.00246
Materials for energy recovery (MER)	Output	kg	0	0	0.01426	0	0.005672	0	0	0.035	9.982E-8	-0.000324
Exported electrical energy (EEE)	Output	MJ	0	0	0.00873	0	0.004423	0	0	0.0358	0.000006475	-0.0007938
Exported thermal energy (EET)	Output	MJ	0	0	0.1321	0	0.06692	0	0	0.5417	0.00009797	-0.01201

Core environmental impact indicators

Indicator	Unit	Raw material supply A1	Transport A2	Manufacturing A3	Transport A4	Installation A5	Operational energy use B6	Transport C2	Waste processing C3	Disposal C4	Recycling Potential D
Abiotic depletion potential - fossil resources (ADPF)	MJ	14.54	0.3834	1.654	0.7884	0.3698	8.217	0.05185	0.09226	0.04206	-1.969
Abiotic depletion potential - non-fossil resources (ADPE)	kg Sb-eqv.	0.0004474	7.004E-7	3.713E-7	8.648E-7	0.000005172	0.00004489	9.473E-8	1.477E-7	1.533E-8	-0.0002021
Acidification potential, Accumulated Exceedance (AP)	mol H+ eqv.	0.04106	0.00007287	0.00008092	0.0001563	0.0005775	0.004703	0.000009856	0.00004055	0.00001507	-0.03611
Global Warming Potential - biogenic (GWP-biogenic)	kg CO2 eqv.	0.01023	0.0000105	0.001574	0.00002079	0.007532	0.01664	0.000001419	0.00002856	0.000001103	-0.001006
Global Warming Potential - fossil fuels (GWP-fossil)	kg CO2 eqv.	0.9827	0.02536	0.02351	0.04853	0.0201	0.6019	0.003429	0.07012	0.007536	-0.2183
Global Warming Potential - total (GWP-total)	kg CO2 eqv.	0.994	0.02538	0.0251	0.04857	0.02765	0.6211	0.003432	0.07016	0.007538	-0.2197
Global Warming Potential - land use and land use change (GWP-luluc)	kg CO2 eqv.	0.001023	0.000009025	0.00001437	0.00001479	0.00001726	0.002483	0.000001221	0.000005478	6.585E-7	-0.0003454
Global warming potential except emissions and uptake of biogenic carbon (GWP-IOBC/GHG)	kg CO2 eqv.	1	0.02538	0.02478	0.04857	0.02036	0.6198	0.003432	0.07034	0.006605	-0.1055
Eutrophication potential - freshwater (EP-freshwater)	kg P eqv.	0.0003353	2.026E-7	5.799E-7	3.862E-7	0.000004661	0.00004329	2.74E-8	2.064E-7	4.197E-8	-0.0002435
Eutrophication potential - marine (EP-marine)	kg N eqv.	0.002835	0.00001442	0.00001773	0.00003422	0.00004274	0.000517	0.00000195	0.000009899	0.00001055	-0.001491
Eutrophication potential - terrestrial (EP-terrestrial)	mol N eqv.	0.0414	0.0001613	0.0001678	0.0003817	0.0006032	0.006729	0.00002181	0.0001062	0.00005811	-0.02308
Photochemical Ozone Creation Potential (POCP)	kg NMVOC eqv.	0.01037	0.00006178	0.0000467	0.0001499	0.0001556	0.00181	0.000008356	0.00003004	0.00001739	-0.006269
Depletion potential of the stratospheric ozone layer (ODP)	kg CFC 11 eqv.	1.497E-7	5.743E-9	7.578E-9	1.17E-8	4.224E-9	4.128E-8	7.77E-10	2.305E-9	5.11E-10	-0.0002508
Water (user) deprivation potential (WDP)	m3 world eqv.	61.97	0.3708	25.02	0.6044	2.202	32.04	0.05015	1.884	0.8342	11.15

Additional environmental impact indicators

Indicator	Unit	Raw material supply A1	Transport A2	Manufacturing A3	Transport A4	Installation A5	Operational energy use B6	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.	0.0584	0.001676	0.01631	0.003445	0.001805	0.1491	0	0.0002266	0.0004483	0.0002511	-0.002699
Potential incidence of disease due to PM emissions (PM)²	disease incidence	1.177E-7	1.551E-9	4.91E-10	4.458E-9	1.838E-9	3.372E-8	0	2.1E-10	2.64E-10	2.42E-10	-7.385E-8
Potential Soil quality index (SQP)²	unitless	10.64	0.2682	0.09679	0.9037	0.2101	4.138	0	0.03627	0.0336	0.1068	-4.54
Potential Comparative Toxic Unit for humans - non-cancer effects (HTP-nc)²	CTUh	6.681E-7	3.1E-10	4.46E-10	5.57E-10	9.144E-9	4.209E-8	0	4.2E-11	1.041E-9	9E-11	-4.017E-7
Potential Comparative Toxic Unit for humans - cancer effects (HTP-c)²	CTUh	8.831E-9	0	1.8E-11	0	1.22E-10	1.787E-9	0	0	1E-11	3E-12	-4.688E-9
Potential Comparative Toxic Unit for ecosystems (ETP-fw)²	CTUe	499.4	0.2842	0.594	0.5764	7.397	37.44	0	0.03844	4.422	43.87	-332.2