Clothes washing machines and washer-dryers for household and similar use - Method for the determination of rinsing effectiveness by measurement of the surfactant content at textile materials

The first edition of this Technical Specification provides a method for the evaluation of the rinsing effectiveness of household clothes washing machines, washer dryers and commercial washing machine. The amount of residual detergent extracted from the unstained swatches of the strips used in the washing performance test is determined. This is accomplished by measuring the ultraviolet light absorbance at the wavelength particular to linear alkylbenzene sulfonate surfactant, a key ingredient of the detergent with a known linear relationship to the quantity of detergent mixture.
Using a concentration versus absorbance curve developed as part of this procedure, the absorbance values can then be converted into detergent concentrations, which together with the test solution mass data, yields detergent quantities.
The first edition is now widely used in many different laboratories, both manufactures and independent test labs. SWG01-08 received feedback that the test burden is very high, which increases the costs and lowers the ability to test many machines in parallel. With the second edition, it is planned to simplify the procedure to improve the output of this method and decrease the test costs.

Waschmaschinen und Waschtrockner für den Hausgebrauch und ähnliche Zwecke - Verfahren zur Bestimmung der Spülwirkung durch Messung des Tensidgehalts an Textilien

Machines à laver le linge et machines à laver et à sécher pour usages domestiques et analogues - Méthode pour la détermination de l'efficacité de rinçage par la mesure de la teneur en tensioactifs des matières textiles

Pralni in pralno-sušilni stroji za gospodinjsko in podobno uporabo - Metoda za ugotavljanje učinkovitosti izpiranja z merjenjem tenzidov na tekstilu

Prva izdaja te tehnične specifikacije ponuja metodo za vrednotenje učinkovitosti izpiranja gospodinjskih pralnih strojev, pralno-sušilnih strojev in komercialnih pralnih strojev. Določi se količina ostankov detergenta, izluščenega iz nepobarvanih vzorcev trakov, uporabljenih pri preskusu učinkovitosti pranja. To se doseže z merjenjem vpijanja ultravijolične svetlobe pri valovni dolžini, značilni za linearni alkilbenzen sulfonatni tenzid, ki je ključna sestavina detergenta z znano linearno odvisnostjo od količine mešanice detergenta.
Če uporabimo krivuljo koncentracije v primerjavi z vpojnostjo, ki je pripravljena kot del tega postopka, se vrednosti vpojnosti nato pretvorijo v koncentracije detergenta, kar skupaj s podatki o masi preskusne raztopine zagotavlja podatke o količinah detergenta.
Prva izdaja se zdaj pogosto uporablja v številnih različnih laboratorijih, tako pri proizvajalcih kot v neodvisnih preskuševalnih laboratorijih. Skupina SWG01-08 je prejela povratne informacije, da je preskusno breme zelo veliko, kar povečuje stroške in zmanjšuje možnost vzporednega preskušanja več strojev. V drugi izdaji je načrtovana poenostavitev postopka z namenom izboljšati rezultate te metode in znižati stroške preskušanja.

General Information

Status
Published
Publication Date
17-Aug-2022
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
01-Aug-2022
Due Date
06-Oct-2022
Completion Date
18-Aug-2022

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SLOVENSKI STANDARD
SIST-TS CLC/TS 50677:2022
01-september-2022
Nadomešča:
SIST-TS CLC/TS 50677:2019
Pralni in pralno-sušilni stroji za gospodinjsko in podobno uporabo - Metoda za
ugotavljanje učinkovitosti izpiranja z merjenjem tenzidov na tekstilu
Clothes washing machines and washer-dryers for household and similar use - Method
for the determination of rinsing effectiveness by measurement of the surfactant content
at textile materials
Waschmaschinen und Waschtrockner für den Hausgebrauch und ähnliche Zwecke -
Verfahren zur Bestimmung der Spülwirkung durch Messung des Tensidgehalts an
Textilien
Machines à laver le linge et machines à laver et à sécher pour usages domestiques et
analogues - Méthode pour la détermination de l'efficacité de rinçage par la mesure de la
teneur en tensioactifs des matières textiles
Ta slovenski standard je istoveten z: CLC/TS 50677:2022
ICS:
97.060 Aparati za nego perila Laundry appliances
SIST-TS CLC/TS 50677:2022 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST-TS CLC/TS 50677:2022

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SIST-TS CLC/TS 50677:2022


TECHNICAL SPECIFICATION CLC/TS 50677

SPÉCIFICATION TECHNIQUE

TECHNISCHE SPEZIFIKATION June 2022
ICS 97.060 Supersedes CLC/TS 50677:2019
English Version
Clothes washing machines and washer-dryers for household and
similar use - Method for the determination of rinsing
effectiveness by measurement of the surfactant content at textile
materials
Machines à laver le linge et machines à laver et à sécher Waschmaschinen und Waschtrockner für den
pour usages domestiques et analogues - Méthode pour la Hausgebrauch und ähnliche Zwecke - Verfahren zur
détermination de l'efficacité de rinçage par la mesure de la Bestimmung der Spülwirkung durch Messung des
teneur en tensioactifs des matières textiles Tensidgehalts an Textilien
This Technical Specification was approved by CENELEC on 2022-04-18.

CENELEC members are required to announce the existence of this TS in the same way as for an EN and to make the TS available promptly
at national level in an appropriate form. It is permissible to keep conflicting national standards in force.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus, the Czech Republic,
Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the
Netherlands, Norway, Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and the United Kingdom.



European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2022 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
 Ref. No. CLC/TS 50677:2022 E

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Contents Page
European foreword .5
1 Scope .6
2 Normative references .6
3 Terms and definitions .6
4 Symbols and abbreviated terms .6
4.1 The variables for rinsing effectiveness calculations are defined as: .6
4.2 Symbols relating to Annex A .7
5 Requirements .7
6 Test method .7
6.1 Equipment and materials .7
6.1.1 General .7
6.1.2 Climate chamber .8
6.1.3 Ultraviolet (UV) spectrophotometer .8
6.1.4 Quartz cuvette .8
6.1.5 Cuvette rack .8
6.1.6 Orbital shaker .8
6.1.7 Scale for weighing detergent and samples .8
6.1.8 Weigh bowl .8
6.1.9 Volumetric flask .9
6.1.10 Graduated cylinder, 500 ml .9
6.1.11 Magnetic stirrer .9
6.1.12 Magnetic stir bar .9
6.1.13 Pipette .9
6.1.14 Disposable glass pipettes (e.g. Pasteur pipettes) .9
6.1.15 Pipette bulbs, 2 ml or greater .9
6.1.16 Sample bottle with cap (for test swatch extraction) .9
6.1.17 Laboratory wipes .9
6.1.18 Distilled water .9
6.1.19 Squirt bottle .9
6.1.20 Funnel .9
6.1.21 Reference detergent A* base powder . 10
6.2 Preparation of equipment . 10
6.2.1 General . 10
6.2.2 UV spectrophotometer check . 10
6.2.3 Cleanliness . 10
6.2.4 Cuvette filling and cleaning . 10
6.2.5 Checking the quality of the distilled water . 10
6.2.6 Cuvette matching . 13
6.3 Procedure . 14
6.3.1 Detergent concentration curve . 14
6.3.2 Test run procedure . 14
6.3.3 Acquiring samples. 14
6.3.4 UV absorbance measurements . 15
6.4 Expression of results . 16
6.4.1 Rinsing effectiveness . 16
6.4.2 Rinsing effectiveness evenness . 19
7 Data to be reported . 19
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Annex A (normative) Procedure for determining a detergent concentration curve . 20
A.1 General approach . 20
A.2 IEC-A* base detergent sampling . 20
A.3 Distilled water . 20
A.4 Preparation of Stock 1 solution (IEC-A* base powder detergent) . 20
A.4.1 Sample weighing . 20
A.4.2 Mix the sample . 20
A.4.3 Stock 1 calculation . 21
A.5 Preparation of Stock 2 . 21
A.5.1 Mix the sample . 21
A.5.2 Stock 2 calculation . 21
A.6 Preparation of working standards . 22
A.6.1 Mix the solutions . 22
A.6.2 Working standard calculations . 23
A.7 Measure the absorbance of the working standard solutions . 23
A.8 Calculations . 24
A.8.1 Initial treatment of the data . 24
A.8.2 Single sample data (per detergent sample) . 24
A.8.3 Combined sample data (all detergent samples) . 24
Annex B (normative) IEC-A* base powder detergent sampling . 26
B.1 Purpose . 26
B.2 Devices and materials . 26
B.3 Sampling procedure . 26
Annex C (informative) Acquiring samples using a dispenser . 30
C.1 General . 30
C.2 Calibration of the dispenser . 30
C.2.1 General . 30
C.2.2 Priming . 30
C.2.3 Setting the volume . 30
C.2.4 Calibration: . 30
C.2.5 Calculation: . 31
C.3 Acquiring samples (with dispenser) . 31
Annex D (informative) Quartz cuvette and glassware cleaning and handling . 32
D.1 Purpose . 32
D.2 Cuvettes . 32
D.3 General cleaning . 32
D.4 Periodic glass cleaning . 33
D.4.1 General . 33
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D.4.2 Standard glassware cleaning solutions . 33
Annex E (informative) Uncertainty of the test method . 34
Annex F (informative) Extraction of single swatches . 35
F.1 General . 35
F.2 Additional materials . 35
F.2.1 Graduated cylinder, 100 ml . 35
F.2.2 Sample bottle with cap (for test swatch extraction) . 35
F.3 Single extraction . 35
Annex G (normative) Test report – Data to be reported . 37
G.1 General . 37
G.2 Data for test machine . 37
G.3 Data, parameters and results for the test series . 37
G.4 Example of calibration data collection (including calculation) . 39
G.5 Example of data collection for measurement . 41
Bibliography . 42

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European foreword
This document (CLC/TS 50677:2022) has been prepared by CLC/TC 59X “Performance of household and
similar electrical appliances”.
This document supersedes CLC/TS 50677:2019 and all of its amendments and corrigenda (if any).
CLC/TS 50677:2021 includes the following significant technical changes with respect to
CLC/TS 50677:2019:
— Reduced requirements for UV spectrophotometer.
— Implemented simplified extraction procedure with reduced effort by extracting maximum 5 swatches of
each test run in one extraction bottle.
— Single swatch extraction was moved to Annex F.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. CENELEC shall not be held responsible for identifying any or all such patent rights.
This document has been prepared under a Standardization Request given to CENELEC by the European
Commission and the European Free Trade Association.
Any feedback and questions on this document should be directed to the users’ national committee. A
complete listing of these bodies can be found on the CENELEC website.
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1 Scope
This document provides a method for the evaluation of the rinsing effectiveness of household clothes
washing machines, washer dryers and commercial washing machines. The amount of residual linear
alkylbenzene sulfonate surfactant (LAS) extracted from the unstained test swatches of the strips used in the
washing performance test is determined. This is accomplished by measuring the ultraviolet (UV) light
absorbance at the wavelength particular to LAS, a key ingredient of the detergent.
Assuming a fixed linear relationship between LAS amount and quantity of detergent mixture and using a
concentration versus absorbance curve developed as part of this procedure, the absorbance values are then
converted into detergent concentrations, which together with the test solution mass data, yields detergent
quantities. This assumption is done, because in the frame of this test it is not possible to determine the exact
amount of LAS involved, even in the concentration curves, but only the amount of detergent used.
On the textiles, this linear relationship is not given, but it is nevertheless used to express the amount of LAS
as determined by UV light absorbance measurements in terms of a detergent amount.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content constitutes
requirements of this document. For dated references, only the edition cited applies. For undated references,
the latest edition of the referenced document (including any amendments) applies.
EN 60456:2016/A11:2020, Clothes washing machines for household use - Methods for measuring the
performance
EN IEC 62512:2020/A11:2020, Electric clothes washer-dryers for household use - Methods for measuring
the performance
3 Terms and definitions
No terms and definitions are listed in this document.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— IEC Electropedia: available at https://www.electropedia.org/
— ISO Online browsing platform: available at https://www.iso.org/obp
4 Symbols and abbreviated terms
4.1 The variables for rinsing effectiveness calculations are defined as:
Asp average absorbance
a
a
Asp
avg,j average net absorbance of the sample j
a
Asp
net absorbance for specimen i
i
a
Asp
i,223 absorbance reading at 223 nm for specimen i
a
Asp
i,330 absorbance reading at 330 nm for specimen i
a
Asp
peak absorbance at wavelength m
m
a
Asp
relative peak absorbance at wavelength m
r,m
a
Cs
concentration of detergent in sample j
j
a
Ds
mass of detergent recovered from sample j
j
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Dsw average ratio of mass of detergent recovered per gram of
avg,l
test swatch from the test run l
a
Dsw
ratio of mass of detergent of test swatch k
k
DL ratio of mass of detergent of test run l
l
i, j, k and l index of specimens, samples, swatches and test run
m slope of the detergent concentration curve
n number of cuvettes, specimens, samples, swatches or
a
test runs
R rinsing effectiveness (average of all test runs)
Re Rinse Evenness Score
S standard deviation of the rinsing effectiveness
R
S standard deviation of the ratio of mass of detergent
r,l
recovered per gram of test swatch for test run l
a
Wsw
weight of test swatch k
k
a
Ws
weight of water in sample j
j
a
Care shall be taken in the calculations of Clause 6, as these variables are
depending on additional parameters, e.g. index of the sample, swatch or test
run.
4.2 Symbols relating to Annex A
b intercept of the detergent concentration curve
C detergent concentration of working standard solution
WSS
m mass of detergent
det
m slope of the detergent concentration curve
m mass of transferred Stock 1 solution
1
m mass of transferred Stock 2 solution
2
St concentration of Stock 1 solution
1
St concentration of Stock 2 solution
2
y absorbance value of the sample
x concentration of the detergent in the sample
5 Requirements
(Not available in this document.)
6 Test method
6.1 Equipment and materials
6.1.1 General
NOTE This materials list is additional to the materials list in EN 60456:2016, 5.4.
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6.1.2 Climate chamber
The ambient temperature and relative humidity in the climate chamber shall be maintained at:
— temperature: (20 ± 2) °C
— relative humidity: (65 ± 5) %.
6.1.3 Ultraviolet (UV) spectrophotometer
The absorption of the ultraviolet light shall be measured with a ultraviolet spectrophotometer with the
following specifications:
— wavelength range: 190 nm to 350 nm
— spectral bandwidth: ≤ 2 nm
— wavelength accuracy (at D peak 656,1 nm): - 0,2 to 0,2 nm
2
— wavelength repeatability (10 measurements at 656,1 nm, slit width 1 nm): - 0,05 to 0,05 nm
— photometric range: - 0,1 to 3,0 A
— photometric accuracy (UV with K Cr O , Ph.Eur. at 1 A): - 0,02 to 0,02 A
2 2 7
— photometric repeatability (10 measurements with K Cr O , Ph.Eur. at 1 A): - 0,002 to 0,002 nm.
2 2 7
The spectrophotometer shall be calibrated regularly according to the manufacturer’s specification.
6.1.4 Quartz cuvette
The cuvettes to be used for the measurement of the ultraviolet absorption shall be rectangular with a path
length of 10 mm and be made from quartz.
6.1.5 Cuvette rack
(Not specified in this document.)
6.1.6 Orbital shaker
The device for the extraction of the linear alkylbenzene sulfonate shall be an orbital shaker. The orbital
shaker shall have a device for securing sample bottles on it.
Orbit: 4 mm to 20 mm
−1
Shaker speed: ≥ 350 min
NOTE The speed of the shaker can be checked by a tachometer, either optical by light beam reflection or
mechanical by a magnetic sensor. For details it is advised to refer to the manufacturer’s specification.
6.1.7 Scale for weighing detergent and samples
Minimum specification: 0 to 150 g range with
Minimum resolution: 0,001 g
Accuracy: ± 0,002 g
6.1.8 Weigh bowl
(Not specified in this document.)
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6.1.9 Volumetric flask
For the preparation of the working standards for calibration volumetric flasks with a volume of 100 ml and
1000 ml shall be used.
6.1.10 Graduated cylinder, 500 ml
(Not specified in this document.)
6.1.11 Magnetic stirrer
(Not specified in this document.)
6.1.12 Magnetic stir bar
Small, medium and large stir bars shall be used.
6.1.13 Pipette
Pipette of volume 1, 2, 5, 10 and 25 ml shall be used.
6.1.14 Disposable glass pipettes (e.g. Pasteur pipettes)
Disposable glass pipettes without cotton stoppers, non-sterile and with a volume of 2 ml or greater shall be
used for transferring the extract to the cuvettes.
NOTE A transfer pipette with disposable plastic tips can be used in place of glass pipettes after correlation tests.
6.1.15 Pipette bulbs, 2 ml or greater
(Not specified in this document.)
6.1.16 Sample bottle with cap (for test swatch extraction)
For the extraction plastic bottles with cap made from high-density polyethylene with a volume of 500 ml and
a diameter of (73 ± 3) mm.
6.1.17 Laboratory wipes
(Not specified in this document.)
6.1.18 Distilled water
All water used for extractions, dilutions and the preparation of calibration standards shall meet the following
criteria:
Conductivity at 25 °C: ≤ 1 µS/cm.
Net absorbance (223 nm to 330 nm): - 0,002 to 0,002 A.
Absorbance curve spectrum 200 nm to 350 nm: no relative peak absorbance greater than ± 0,002 A in the
range between 223 nm to 330 nm.
The procedure for calculating these values is given in 6.2.4.
NOTE Water prepared by methods other than distillation having equivalent specifications can be used instead of
distilled water.
6.1.19 Squirt bottle
Material: high-density polyethylene
6.1.20 Funnel
(Not specified in this document.)
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6.1.21 Reference detergent A* base powder
The detergent used for calibration is IEC-A* as described in EN 60456:2016/A11:2020. Only the base
powder IEC-A* shall be used for the determination of the calibration curve. The calibration shall be done with
the batch of detergent used for washing.
This document only refers to IEC-A* as detergent. It is possible to use other detergents than IEC-A*. For all
cases the calibration shall be done with the detergent used for washing.
6.2 Preparation of equipment
6.2.1 General
(Not specified in this document.)
6.2.2 UV spectrophotometer check
Turn on the UV spectrophotometer. It should be run approximately 30 min before measurements (refer to
the manufacturer’s specification).
If the instrument has a built-in self-check function, perform the self-check once a day before measuring data.
This may be included in the calibration report.
6.2.3 Cleanliness
All materials that come in contact with detergent, distilled water, Stock 1, Stock 2 or the working standard
solutions shall be cleaned and thoroughly rinsed with distilled water then dried before use. A professional
laboratory dishwasher may be used for this purpose.
6.2.4 Cuvette filling and cleaning
The cuvettes should be handled by the opaque sides only. Do not touch the clear sides of the cuvettes.
To avoid air bubbles, fill by running the solution down the side of the cuvette. Fill cuvettes without soiling or
wetting the exterior measuring surface. If air bubbles are present, eliminate them by holding the cuvette at a
slight angle and tapping the opaque side as many times as necessary to release the bubbles.
To prevent liquid from running down the cuvette surface after discharging, place the cuvette head first on a
clean position of a lint-free tissue for some seconds. Replace the tissue from time to time if no clean position
is left.
If a cuvette gets contaminated on the outside, clean the cuvette and re-check cuvette matching (6.2.5). Do
not only wipe/dry the cuvette surface with a tissue. Remaining residues in the UV-area are not visible.
NOTE See Annex D (informative), Quartz cuvette and glassware cleaning and handling.
6.2.5 Checking the quality of the distilled water
6.2.5.1 General
Take a spectrum (200 nm to 350 nm) of the distilled water used for testing as described in 6.2.4.2 f).
If
a) the calculated net absorbance value (223 nm to 330 nm) is greater than ± 0,002 A
or
b) any relative peak absorbance value in the range between 223 nm to 330 nm is greater than ± 0,002 A
Check the spectrum for abnormality and repeat this section with a different batch of distilled water. Such
water is likely to contain impurities which could interfere with this test method and lead to unreliable results.
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6.2.5.2 Spectrum from 200 nm to 350 nm
a) Start Spectrophotometer and wait for warm up
b) Use only one cuvette
c) Place a clean, dry and empty cuvette into the position for zeroing the cuvette. The positioning of the
cuvette may vary according to the type of spectrophotometer used:
— for double beam devices, place the cuvette in the measuring position and leave the reference/blank
position empty;
— for single beam devices with a carrousel, place the cuvette in the reference/b
...

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