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Process Data set: BAUMIT KlimaWhite (en) en

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

Most recent version of this data set:00.04.002

Key Data Set Information
Reference year 2021
Name
BAUMIT KlimaWhite
Technical purpose of product or process BAUMIT KlimaWhite is a factory-mixed, dry mix lime-cement plaster for indoor machine or manual application. The structure of the plaster absorbs moisture from its surroundings and returns it in the event of a decrease in moisture. Klima White has antibacterial effects, reduced risk of mold, and reduced smell due to lime hydrate content. Klima white is characterised by high vapour permeability which supports fast transfer of moisture and prevents condensation. KlimaWhite can be used in all internal rooms, including industrial wet rooms (moisture load classification: W4). KlimaWhite is suitable for wall heating systems. It can be applied as both basecoat and topcoat plasters. A paint finish may be applied if required. Baumit Klima White can be mixed with clean water in a tub to a lump free, creamy consistency with an electric hand mixer. Automated continuous horizontal mixers may also be used. For small areas the mixed plaster can be manually applied. For larger areas the fresh plaster can be fed into a mortar pump for spray application. Alternatively, mortar mixing pumps provide an all-in-one mixing and spraying solution. BAUMIT KlimaWhite is a factory-made dry mix for lime-cement plaster. It consists of limestone crushed sand, hydrated lime, white cement, expanded perlite and additives. KlimaWhite lime-cement plaster covers the requirements for lime-cement plasters of group GP – CS II as per BDS EN 998-1. KlimaWhite is packed in bags with unit mass 25 kg - Figure 3.
General comment on data set The information on the production process of the plasters is collected from BAUMIT Bulgaria EOOD. Information on the transport and composition of components is provided by BAUMIT Bulgaria EOOD. Information on the production process of additives is accounted as presented in ecoinvent v.3.6 database. The factory of BAUMIT Bulgaria EOOD in Elin Pelin produces various construction products for external and internal finishing layers of buildings. The manufacturing processes for all three lime-cement plasters are equivalent with slight variance in terms of working regime of drying and mixing stations. Even though, allocation is done regarding energy and fuel use, and generated waste. Environmental impacts, resource use and waste generation are calculated based on yearly data about the inputs/outputs and the yearly production of lime-cement plasters for 2018. As per EN 15804, in the case that there is not enough information, the process energy and materials representing less than 1% of the energy and mass used per module can be excluded (if they do not cause significant impacts). The addition of all the inputs and outputs excluded is less than 5% of the whole mass and energy used, as well of the emissions to environment occurred. Flows related to human activities such as employee transport are excluded. In accordance with EN 15804 the construction of plants, production of machines and transportation systems are excluded. Environmental burden of the administrative building is partly considered. Some additives in very small amounts (less than 0.5 %) are excluded due to lack of enough data and negligible potential environmental impacts. The total sum of omitted processes does not exceed 5% of the whole mass of inputs and outputs.
Copyright Yes
Owner of data set
Quantitative reference
Reference flow(s)
Time representativeness
Data set valid until 2026
Time representativeness description "14.06.2021" - "14.06.2026"
Technological representativeness

Indicators of life cycle

IndicatorDirectionUnit Raw material supply
A1
Transport
A2
Manufacturing
A3
Transport
C2
Waste processing
C3
Disposal
C4
Input
  • 97.9
  • 3.07
  • 31.5
  • 1.54
  • 0.814
  • 0.0822
Input
  • 41.6
  • 0
  • 0
  • 0
  • 0
  • 0
Input
  • 1.4E+2
  • 3.07
  • 31.5
  • 1.54
  • 0.814
  • 0.0822
Input
  • 1.34E+3
  • 227
  • 634
  • 115
  • 103
  • 15.1
Input
  • 0
  • 0
  • 0
  • 0
  • 0
  • 0
Input
  • 1.34E+3
  • 227
  • 634
  • 115
  • 103
  • 15.1
Input
  • 4.54
  • 0.0866
  • 0.0441
  • 0.0559
  • 0.0511
  • 0.00746
Input
  • 2.6
  • 0.109
  • 1.28
  • 0.0536
  • 0.0361
  • 0.00202
Input
  • 0.149
  • 0
  • 0
  • 0
  • 0
  • 0
Input
  • 0.568
  • 0.0162
  • 0.181
  • 0.00775
  • 0.00407
  • 0.00042
Output
  • 4.12
  • 0.226
  • 0.336
  • 0.131
  • 0.115
  • 0.0164
Output
  • 121
  • 18.7
  • 0
  • 5.62
  • 1.53
  • 0.175
Output
  • 0.00467
  • 0.00156
  • 0.00317
  • 0.00078
  • 0.00072
  • 0.00011
Output
  • 0
  • 0
  • 0
  • 0
  • 0
  • 0
Output
  • 3.67
  • 0.0727
  • 18.4
  • 0.0483
  • 0.0497
  • 0.00733
Output
  • 0.0327
  • 0.00121
  • 0.0126
  • 0.0006
  • 0.00037
  • 0.0000227
Output
  • 0
  • 0
  • 0
  • 0
  • 0
  • 0
Output
  • 0
  • 0
  • 0
  • 0
  • 0
  • 0

IndicatorUnit Raw material supply
A1
Transport
A2
Manufacturing
A3
Transport
C2
Waste processing
C3
Disposal
C4
  • 1.25E+3
  • 223
  • 4.1E+2
  • 112
  • 101
  • 15
  • 0.00071
  • 0.00035
  • 0.0000714
  • 0.0002
  • 0.0000115
  • 0.00000169
Acidification potential (AP)
  • 0.599
  • 0.0344
  • 0.185
  • 0.0169
  • 0.013
  • 0.00189
  • 0.025
  • 0.00108
  • 0.0588
  • 0.00055
  • 0.00034
  • 0.0000401
  • 194
  • 14.7
  • 26.2
  • 7.81
  • 7.5
  • 1.11
Ozone Depletion Potential (ODP)
  • 0.0000109
  • 0.00000341
  • 0.00000124
  • 0.00000172
  • 0.0000016
  • 2.38E-7
Photochemical Ozone Creation Potential (POCP)
  • 0.358
  • 0.0263
  • 0.0483
  • 0.0123
  • 0.0103
  • 0.00151