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Modscour bl
1. Technical Presentation
MCPL
15/11/98
ECONOMICALLY & ECOLOGICALLY IMPROVED PEROXIDE BLEACH
MODHERA CHEMICALS PVT. LTD., offers “MODSCOUR-BL” as a product which is well tried and tested in hydrogen
peroxide bleaching. The most distinguished properties of this product lie in that it enables various functions to be
performed in one bath and also allow the fundamental needs of the consumers for more environmental compatibility. It is
bio-degradable to high degree. Besides preventing redeposition of impurities the product offers good stability against acids
(important for acid extraction) and alkalies, excellent wetting and re-wetting properties, inhibition of iron and stabilising
action for peroxide.
MODSCOUR-BL is suited for all types of machinery (continues and discontinuous) and guarantees minimal fibre damage,
while achieving a high degree of whiteness at the same time. The user will benefit in quality from the universal means of
applying this hitech MCPL product, and will also have savings in time, water and energy.
Advantages:
Only one product now needed for peroxide bleaching
Optimum degree of whiteness
Reduced use of chemicals possible
Excellent d.p. values
Very good re-wetability
Suitable for all types of machines and processes
Stable to acids, alkali, electrolytes and temperatures upto 135ºC
Energy saving due to shortened processes
Complete dispensation of silicate
Biodegradable
Scope of Applications:
Bleach bath stabilisation
Demineralisation bleaching by one bath / two step process
“Three in one” product
- Wetting / scouring
- Dispersing
- Stabilisation
2. Profile of MODSCOUR-BL
Good Biodegradibility
Sequestration of Ca, Mg at Stable to alkali, acids,
the presence of high amount electrolytes.
of alkali
Sequestration of iron Stable to temperatures upto
other heavy metal ions in 135ºC
hot strongly alkaline liquors
MODSCOUR-BL
Dispersing power of Ca, Support of surface active
Mg heavy metal componet during extraction
hydroxides processes.
Acid extraction peroxide Easily dosable
bleaching in one bath
Stabilisation by complete
dispensation of silicate
3. MODSCOUR-BL : Manganese, Iron, Copper binding capacity at 98ºC.
400
mg metal ions / g
300
product
pH 7
200 pH 9
pH 11
100
0
manganese iron copper
Metal Ions
Stabilisation with MODSCOUR-BL in relation to magnesium content
100
90
80
70
Residual H2O2, (%)
60 Mod scour- BL
50 Perostab -BLN
Silicate
40
30
20
10
0
Additio n o f M agn esium C hlo rid e [ºd H]
4. Dependance of Stabilisation on the Magnesium content of the Bath
90
80
Residual Peroxide
Final Stabilisation
70
60
in %
50
40
30
20
Modscour- BL
10
0 Waterglass
2ºdH
4ºdH
8ºdH
12ºdH
16ºdH
20ºdH
32ºdH
48ºdH
64ºdH
80ºdH
Addition of Magnesium Chloride
[ºdH]
BLEACHING OF TOWELLING
Machine : Thies Roto Stream
Material : 100% cotton
Liquor ratio : 1 : 10
5. Bleaching recipe:
1~1.5 g/l : MODSCOUR-BL
2 g/l : NaOH Flakes
5~5.5 m/l : H2O2 50%
Water hardness : 8º Gh = 10ºEh
(If only deionized water is available add 0.3 g/l MgCl2 . 6H2O)
95°C 60 min. 95°C
2.5°C/min.
80°C
25°C
Drain
Pretreatment of Dyeing - Cheese
Production Steps
1. Demineralization / Bleaching (Semi White)
2. Vat Dyeing
3. Reactive dyeing
Problematic
Repeatly unlevelness on light Vat and Reactive shades occurred in the past in so far as the package inside was lighter than
outside. Analyses of the yarn led to the result that deposits of mineral hydroxides caused a blockage of the liquor flow.
The followimg Pre-treatment process solved the problem.
6. 1. Pre-Bleach Process
Machine : Open Thied package bleaching unit, circulation in one
Direction,
Inside Outside
Material : 300 kgs. cotton cheese, Nm 19/1.
Liquor ratio : 1 : 10
1.1 First Step
Deminerlization
2 g/l : MODSCOUR-BL
5 g/l : ALTRANOL-OL / MODFOR-R-610
1 ml/l acetic acid 60% : pH 4~6
20 min, at 40°C
1.2 Second Step (same bath)
Bleaching
1.2 ml.l NaOH 50%
2 ml/l H2O2 35%
40 min.
95°C 95°C
40°C Drain
- Overflow Rise at 70°C, 15 min.
- Rise at 70°C, 8 min.
Addition of 1 g/l MODSCOUR-BL
pH after Rinsing 7
2. Vat Dyeing
(on different machine, closed apparatus with alternating circulation)
7. 2.1 Pigmentation
1 g/l MODQUEST-FSN
1 g/l MODLEVELLER-VL
0.25% Pigment (Fine dispersion)
0.061% Pigment (Colloidal)
5 m/l NaOH
-10 min. at 80°C
2.2 Vatting
3~3.5 g/l Sodium hydrosulphite
- 20 min. at 80°C
- 30 min. at 60°C
2.3 Rinsing and Oxidation
2.4 Soaping
1~1.5 g/l MODLEVELLER-VL
1~1.5 g/l MODQUEST-WS
- 15 min. at 96°C
2.5 Acidification
0.5 ml/l Acetic acid 60%
- 10 min. at 40°C
2.6 Rinsing at 40°C, and cold
2.7 Softening
2.8 Pressure drying
3. Reactive Dyeing
3.1 Pre-Bleach, same as for Vats
3.2 Dye Process
8. % shade required Reactive dye
1~1.5 g/l MODQUEST-FSN
50 g/l Glauber’s salt
20 g/l Soda ash
50°C 30 min. 50°C 60 min. 50°C
25°C 25°C
Soda ash Drain
MODQUEST-FSN
Dyestuff
Salt
3.2 Rinsing
- 5 min. at 25°C
- 5 min. at 25°C
- 5 min. at 25°C, addition of 0.4 ml/l Acetic acid 60%
3.4 Washing-off
- 10 min. at 98°C
addition of 1~2 g/l MODQUEST-FSN
3.5 Rinsing
- 5 min. at 40°C
3.6 After treatment
0.5 ml/l Acetic acid 60%
2% ECOFIX-2F
- 10 min. at 40°C
3.7 Pressure drying
Bleaching of viscose with MODSCOUR-BL on MCS continuous machine
9. Method : Desizing (Enzymatic)
Hydrozen Peroxide treatment
Machine : MCS continuous machine
- About 1000 running meters in the machine
- Speed : 35 m/min.
- Liquor ratio : 1:4
- Fabric: Viscose/Cosa about 10.000 running meters
Recipe :
Desizing : - MODSCOUR-BL : 0.2~0.5 g/l
- Enzyme : As per recommendation
- pH : As per recommendation
- Retention time : 12 h
BLEACHING:
Starting recipe - MODSCOUR-BL 1 g/l
- NaOH 50% 1 g/l
- H2O2 50% 4 g/l
If only soft water is available add 0.6 g/l MgCl2, otherwise add only 0.2 g/l MgCl2.
Feed liquor conc. - Machinery : see sketch next page
A) 12 g/l Enzymes }
4 g/l MODSCOUR-BL }
pH=6 }
500 ltr.
B) 20 g/lNaOH 50% } Stock solutions
3 g/l MODSCOUR-BL } ⇓
Dosage: 80 ltr./hr.
C) 40 g/lH2O2 50% }
4 g/l MODSCOUR-BL }
3 g/l MgCl2 }
11. LABORATORY TESTS
Degree of whiteness Degree of polymeri- Rewettability
Whiteness (Berger) zation (repeated
determinations)
Grey fabric 63.9 329 20 sec.
MCPL Bleaching 70.8 227 Spontaneous
PRE-TREATMENT COMBINED ALKALI TREATMENT +
OXIDATIVE DESIZING AND BLEACHING
Machinery (see sketch next page)
1. Grey fabric (A-frame)
2. Singeing
3. Alkali treatment + oxidative deszing
Padding liquor:
Caustic soda 35 g/l
Na-persulphate 5 g/l
Altranol-CD/Modscour-LF 2 g/l
Temperature 90-95°C
Pick-up 80%
4. Dwelling
4 hours
5. Washing-off, 4 comparments at90°C – counter current, 1 compartment cold rinse
6. Impregnation compartment
Starting concentration:
Hydrogenperoxide 50% 40 ml/l
Caustic soda flakes 28 g/l
MODSCOUR-BL 10 g/l
Magnesium chloride.6H2O 0.2 g/l
7. U-Box Reaction Unit
Temp. of steam 101°C
Steaming time 20 min
8. Washing-off compartments, Temp. 80-90°C
9. Drying cylinders
12. CONTINUOUS PRE-TREATMENT, 2 STEP PROCESS
a) Alkali treatment + Oxidative desizing
b) Bleaching
------
1 2 3 4 5 6
7 8 9
13. Information about the process run
1. Material Cotton weave, 440 g per running meter
Warp, sized with a blend of
Corn starch
Polyvinyl alcohol
Polyacrylate
Wax
2. Previous process
1st Step: Enzymatic desizing, dwelling process
2nd Step: a) Washing-off decomposed starch
b) Alkali-Pad Steam
3rd Step: Peroxide-Pad steam
3. Process
1st Step: Combined alkali + oxidative treatment, dwelling process
2nd Step: a) Washing-off solubilized impurities and decomposed
starch
b) Peroxide-Pad steam
3.1 Advantages of the oxidative desizing in the alkali step
- Maximum swelling of cellulose, breaking up of husks, saponification of waxes and grease.
- Persulphate decomposes starch as well as polyvinyl alcohol
- Alkali solubilizes polyacrylate
- Shorter dwell time (4 hours) as compared to enzymatic desizing
Remarks : Padding at 90ºC, covering of batching roller with foil
Temperature is kept due to exothermic reactions:
Starch + Persulphate exothermic
Polyvinylalcohol + Persulphate exothermic
3.2 Calculation of feed liquor concentration
F1 = 60% (Entry mangle)
F2 = 90% (Exit mangle)
2
d = 30%
90 = 90 = factor 3
F2 – F1 90-60
14. 4. Results
Degree of Damage factor Degree of Whiteness
Polymerization by Eisenhut Elrepho Filter
Grey fabric 1820 48.9%
Treated fabric (without
Mercerization) 1550 0.29 70%
No optical brightening
5. Evaluation and actions
The reduction of polymerization degree of 15% and a damage factor of 0.29 are satisfactory results. Bearing in mind
that the former practised enzymatic desizing resulted in an incomplete removal of the size the oxidative method is a
good alternative.
Pad-steam (U-box) continuous oxidative desizing and bleaching
Process-steps
A: 3 Compartments prescouring 90-95ºC
Recipe 1
Addition into compartment No. 3, with overflow in compartment No. 2 and No.1
0.5 ~ 1g/l ALTRANOL-CD/MODSCOUR-LF
1 g/l MODQUEST-FSN
Wash-off, overflow compartment No. 4
B: Combined akali treatment and oxidative desizing
Recipe 2
Starting concentration:
4 g/l Na-persulfate
0.5~1 g/l ALTRANOL-CD / MODSCOUR-LF
25 g/l NaOH flakes
Concentration of feed liquor: 4 times
15. C: Steaming
2 times 15 min/102ºC
U-Box-Steamer
D: Recipe 3
3 Compartments at 80-95ºC overflow rinse
1 Compartment cold overflow rinse
E: Peroxide bleaching
Recipe 4
Starting concentration
8 g/l MODSCOUR-BL
20 g/l NaOH flakes
40 g/l H2O2 50%
0.3 g/l MgCl2.6H2O
(necessary if water hardness is below 8ºGh or 10ºEh)
Concentration of feed liquor : 4 times
F: Steaming
15 min/102ºC
U-Box-steamer
G: Recipe 5
4 Compartments hot rinse
overflow (counter current if possible)
H: Cylinder-dryer
16. Fabric
x y Na2S2O8
NaOH
Singeing extinguish 4 x wash-off impregnation bath U-Box-Steamer
50-60 sec. total 4 times conc. of 2 times 15 min/102ºC
feed liquor
Modscour-BL
fabric z { H2O2 fabric
NaOH
Impregnation bath,
4 x wash-off 4 times conc. of U-Box-Steamer
50-60 sec. total feed liquor 15 min/102ºC
fabric |
4 x wash-off
50-60 sec. total cylinder
dryer See recipe 1-5
Continuous-pretreatment- plant
17. BLEACHING BY PAD-STEAM METHOD
METHOD : H Singeing
H Desizing (Enzymatic)
H Hydrogen Peroxide treatment(Pad steam)
MACHINE : KÜSTERS Combi-Steamer (with Flexnip “System)
STEAM TEMPERATURE : 102ºC
STEAMING TIME : 25 min.
SPEED : 100 m/min.
MATERIAL : 100% Cotton (household linen 120 g/m2)
RECIPE :
H DESIZING : Enzyme As per recommendation
Allendet-NI/Altranol-OL 2 g/l
pH As per recommendation
Retention time As per recommendation
H WASHING : 90ºC, 95ºC, 95 (3 Compartments)
H BLEACHING : - Pick-up 100%
- Water hardness 15º (french hardness)
(=8º German hardness)
That means magnesium chloride is not
necessary.
- Steaming time 25 min. at 102ºC
Recipes
COMPETITORS
H 30 ml/l NaOH 36 Bè
H 70 ml/l H2O2 35% (= 46 ml/l H2O2 50%)
H 8 g/l Stabilizer
H 6 g/l Wetting agent
H 4 g/l Sequestering agent
H 1 g/l Defoamer
18. MODHERA CHEMICALS PVT. LTD.
H 50 m//l NaOH 36Bè
H 50 ml/l H2O2 35%
H 10 g/l MODSCOUR-BL
H WASHING 95ºC, 90ºC, 60ºC, 50ºC (4 Compartments)
RESULTS
DP S Degree of Water
(STN whiteness absorbency
2.075/84)
Grey Fabric 1883 35 /
Competitor 1879 0 71.1 Spontaneous
MCPL recipe 1917 0 71.2 Spontaneous
S= Damage factor
19. Bleaching by pad steam method
Method : Desizing (enzymatic) – Pad roll, combined alkali /
Hydrogen peroxide treatment – Pad steam
Machine : Babcock combi steamer
Steam temp. : 100ºC
Steaming time : 15 minutes
Speed : 50 m/min.
Material : 100% cotton, plain weave, 216 g/m
Recipe (starting concentration)
H2O2 50% 40.0 ml/l
NaOH 50% 16.0 ml/l (24.5 g/l)
MODSCOUR-BL 10.0 g/l
Water : 8º German hardness=10º English hardness. If only deionized water is available add 0.3 g/l MgCl2.6H2O.
Calculation of feed liquor concentration
F1 = 65% (Entry machine)
F2 = 95% (Exit mangle)
d2 = 30%
95 95
95-65 = 95-65 =
3.2 factor
Result
- Desizing = very good
(assessment by TEGEWA Violet = standard: note 9)
- Water absorbency = Penetration 3 sec.
Spreading: Warp 35 mm
Weft 31 mm
- Whiteness = good
- Seed removal = complete
- DP decrease = 6%
- Damage factor = very good, undamaged (Damage factor Eisenhut: 0.04)
20. Degree of polymerisation:
In continental Europe fluidity is not normally used as an expression of chemical damage but a measure of the degree of
polymerization (DP). It is obtained from the viscosity using a modified Staudinger equation. The development of these
equations and their use is given by O. Deschler (textile-Praxis 1958, 13, p 927)
Typical values for DP are:
----------------------------------------------------------------------------------------------------------
Fibre DP
----------------------------------------------------------------------------------------------------------
Natural fibres; cotton, flax, ramine 2300-3000
Acceptably bleached cotton 1800-2000
Regenerated cellulose polynosic 1000-1200
Viscose 250- 400
The relationship between DP and fluidity (F) for cotton is given by the equation:
DP = 2032 [log10 74.35 + F ] - 573
F
And this is shown graphically on page
Damage factor:
The damage factor (S), suggested by O. Eisenhut (Melliand Textilber. 1941,22, p 424) relates damage to the change in DP
and so takes into account high initial DPs.
S=log10 (2000 _ 2000 + 1) log102
Ptx Ptx
Pt = DP before chemical treatment Ptx = DP after chemical treatment 2000 = reference value
The damage factor has been categorized to indicate the degree of damage.
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8 factor comment
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0.01 – 0.2 very good – undamaged
0.21 – 0.3 good – very carefully bleached
0.31 – 0.5 satisfactory
0.5 – 0.75 slightly damaged
0.75 badly damaged
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