Low foam wetting and scouring agent

1. LNC Technical Information
TDS-P-52
ALTRANOL-EPLF
Description:
Is a low foaming, high performance detergent designed for the preparation of cotton,
synthetic and blended fabrics in machines of high liquor turbulence such as jet, soft flow and
package dyeing machines as well as in continuous processing systems.
Properties:
Appearance : Transparent liquid
Ionic Nature : Non-ionic
pH : 2.5 ± 0.5
Composition : Blend of ethoxylated alcohols
Solubility : Miscible in all proportions in water.
Compatibility : Compatible with anionic, cationic & nonionic
products & preparation / bleaching chemicals.
Benefits:
Smoother running of ropes, less floatation leading to fewer tangles and more efficient
pump performance.
Uniform extraction of oil and waxes providing consistently clean foundation for level
dyeing and whiter whites.
Improved reproducibility
Cost savings by improved overall dye processing
Trouble free liquid dispersing
Low dosages required. Minimised organic pollutant load on dye house effluent.
Features:
Has excellent emulsifying and soil suspending properties with sustained low foam
character throughout heating, cooling and rinsing cycles.
Excellent emulsifying properties for knitting and weaving lubricants, oils and
waxes.Very good soil suspension and anti-re-deposition properties.
Very high detergent action, which ensures rapid removal of synthetic sizing agents
and spinning oils from polyester and polyamide based fabrics.
Eliminates the need for defoamers /anti foaming agents.
Free flowing liquid form.
High active content. Low odour – no unpleasant smell.
Extremely high primary biodegradability and is readily bio-eliminable.
Stable to hard water, acids and oxidizing agents and in caustic alkali upto 50 g/l
concentration.

2. 2
Application :
Due to its powerful detergent activity and low foam property Altranol-EPLF advantageously
replaces conventional scouring surfactants employed in batchwise and continuous
preparation processes Altranol-EPLF allows significant improvement in productivity. It is
particularly useful in single-stage combined desize/scour/bleach operations for woven and
knitted fabrics, terry-towelling and yarn packages.
On polyester-based fabrics, removal of synthetic sizing agents (especially acrylates which are
used to facilitate the weaving operation on water-jet looms) poses a major problem.
Altranol-EPLF expeditiously cleans out such polymers in short treatment times.
A. Batchwise Processing-
(i) Scouring of cotton hosiery-
Set the bath at liquor ratio 10:1 with
ALTRANOL-EPLF 0.5 – 1.0 g/l
Caustic Soda solid 3.0 g/l
Start at 50ºC, raise gradually to 95ºC and run for 30 mins. Cool to 70ºC.
drain and neutralise with
Acetic acid (80%s) 0.5 g/l
at 70ºC for 10 to 20 mins.
(ii) Scouring of polyester-cellulosic blended fabric-
Set the bath at liquor ratio 10:1 with
ALTRANOL-EPLF 0.5 – 1.0 gl/
Soda Ash 5.0 g/l
Sodium Perborate 2.0 g/l
Start at 40ºC, raise to 95ºC in 15 min., run for 30 mins. Cool to 70ºC
drain and hot rinse at 70ºC.
(iii) Desize-scour of Polyester or Polyamide fabric-
Set the bath at liquor ratio 10:1 with
ALTRANOL-EPLF 1-2 g/l
Soda Ash 5.0 g/l
Run for 30-40 mins at 100ºC for polyester (or 80ºC for polyamide), cool
to 70ºC, drain and wash thoroughly at 70ºC.
(iv) Combined preparation scour-bleach on cotton hosiery and terry-towelling on
winch or soft-flow machines-
Set the bath at liquor ratio 10:1 with
ALTRANOL-EPLF 0.5 - 1.0 g/l
ECOSOFT-400 0.5 g/l
and load the fabric while raising to 60ºC then add
Hydrogen Peroxide 50% 2.0 -5.0 g/l
Caustic Soda Solid 2.0 - 3.0 g/
MODQUEST-WS/PEROSTAB-BLN or 1.0 - 2.0 g/l
MODSTAB-MS
LUBASSIST-JET 0.5 - 1.0 g/l

3. 3
and raise to 90-95ºC in 20 mins. Maintain the temperature for 60-90
mins., cool to 70ºC and drain. Rinse in a fresh bath for 10 mins at 60-
70ºC with 0.5-1.5 g/l NEUTROX-ALN and acidify to pH 6-6.5 before
draining.
For fabrics to be marketed as white, an initial scouring treatment
followed by the bleaching process (preferably incorporating a
compatible optical whitener) yields optimum results.
B. Continuous Processing-
(i) Single-stage desize-scour-bleach for cotton hosiery and low-sized terry-toweiling
in J-Box-
Impregnate in saturator at 100-120% pick-up with
ALTRANOL-EPLF 1-2 g/l
ECOSOFT-400 2-3 g/l
Caustic Soda solid 4-6 g/l
MODSTAB-MS 5-6 g/l
Hydrogen Peroxide 50% 20-35g/l
and steam at 100ºC for 90 mins followed by wash-off at boil.
In Continuous Kier-
The process is carried out at 90-95ºC employing a liquor ratio of 10:1-8:1 with
fabric treatment for 1 hour followed by a squeeze, and washing-off/souring in
a separate washer. A continual gravity feed maintains the effective
concentrations in the kier-liquor. A full white can be obtained with the
following recipe (percentage on weight of material):
ALTRANOL-EPLF 0.5 - 1.0%
ECOSOFT-400 0.5 – 1.0%
MODSTAB-MS 1.0 - 2.0%
Caustic Soda solid 1.0 - 1.5%
Hydrogen Peroxide 50% 3.0 - 5.0%
alongwith a compatible optical whitener. For fabric to be subsequently dyed,
NEUTROX-ALN may be added in the washer at 60ºC to quench residual
peroxide, followed by acidification to maintain pH at 6-6.5.
(ii) Desize-scour-bleach on Pad-Steam range-
Desize by padding at 60ºC and 80-100% pick-up with
ALTRANOL-EPLF 1 g/l
Enzyme desizing agent 2 g/l
and roller-bed steam at 98-100ºC for 10 mins. followed by wash-off at 80ºC.
Scour by padding at 85ºC and 80-100% pick-up with
ALTRANOL-EPLF 3-5 g/l
Caustic Soda solid 10-15 g/l
and roller-bed steam at 98-100ºC for 10 mins followed by thorough wash-off at
boil. Bleach by padding at room temperature and 80-100% pick-up with
ALTRANOL-EPLF 3-5 g/l

4. 4
Caustic Soda solid 10-12 g/l
Modquest-WS / Perostab-BLN 4-5 g/l
or MODSTAB-MS
Hydrogen Peroxide 50 15-20 g/l
and roller-bed steam at 98-100ºC for 3 mins. followed by thorough wash-off at
near boil.
Alternatively, a combined single-stage preparation can be employed for low-
sized grey-
Pad the fabric at room temperature at 80-100% pick-up with
ALTRANOL-EPLF 5-7 g/l
Caustic Soda solid 12-15 g/l
ECOSOFT-400
MODQUEST-WS / PEROSTAB-BLN 5-8 g/l
Hydrogen Peroxide 50% 40-60 g/l
and roller-bed steam at 98-100ºC for 15 mins. followed by thorough wash-off at
near boil.
(iii) Desize-scour-bleach by Cold Pad-Batch for woven cotton and polyester-cotton
fabrics-
Desize by padding at room temperature and 80-100% pick-up with
ALTRANOL-EPLF 2-3 g/l
Enzyme desizing agent 5-10 g/l
and batching overnight at room Temperature followed by thorough
wash off at boil,
Scour-bleach by padding at room temperature at 80-100% pick-up with
ALTRANOL-EPLF 5-8 g/l
Caustic Soda solid 15-25 g/l
MODSTAB-MS 7-10 g/l
Hydrogen Peroxide 50% 30-45 g/l
and batch at room temperature for l5-24 hours followed by thorough
wash-off at boil.
Storage: Good shelf life under normal storage conditions. Containers must be tightly closed
when not in use.
Packing: 30, 50, 100 & 200 kg HMHDPE containers.
The information in the datasheet is based on our present state of knowledge & is published without any obligation on our part.

5. 5
COMPARATIVE FOAM HEIGHT IN MM OF ALTRANOL-EPLF AGAINST
LENETOL-HPLF AT VARIOUS TEMPERATURE
Product Foam height (3 g/l) in mm
At Room Temp. At 75ºC At 95ºC
Lenetol-HPLF 35 35 45
Altranol-EPLF 35 35 40
Expt. A-386 35 35 35
Expt. A-387 35 35 40
Conditions: 3 g/l product solution prepared. 50 ml of the solution taken in a 100 ml
graduated stoppered measuring cylinder and shaked by giving 30 vertical
strokes. Foam height measured on standing.
Comparative Foam Height (3 g/l) in mm at various temperatures
50
45
40
Foam Height in mm
35
30 At Room Temp.
25 At 75ºC
At 95ºC
20
15
10
5
0
Lenatol-HPLF Altranol-EPLF Expt. A-386 Expt. A-387
Products
Conclusion:
1. Altranol-EPLF & Lenetol-HPLF shows similar foam height at Room temperature &
75ºC.
2. Lenetol-HPLF shows maximum increase in foam height at 95ºC in comparison to
Altranol-EPLF

6. 6
COMPARATIVE FOAM COLLAPSE TIME IN SECS OF ALTRANOL-EPLF AGAINST
LENETOL-HPLF AT VARIOUS TEMPERATURE
Product Foam collapse time in secs. (3 g/l)
At Room Temp. At 75ºC At 95ºC
Lenetol-HPLF 12 11 6
Altranol-EPLF 12 11 5.5
Expt. A-386 11 5 4
Expt. A-387 10 5 4
Comparative Foam Collaspe (3 g/l) in secs at various
temperatures
14
Foam collaspe time in secs.
12
10
8 At Room Temp.
At 75ºC
6 At 95ºC
4
2
0
Lenatol-HPLF Altranol-EPLF Expt. A-386 Expt. A-387
Products
Conclusion: ALTRANOL-EPLF & LENETOL-HPLF shows similar foam collapse times.

7. 7
COMPARATIVE ALKALI STABILITY(NaOH) AT VARIOUS TEMPERATURES
Solution : 1% solution of product
Product NaOH Room Temp. At 75ºC At 95ºC
added
(g/l)
Lenetol-HPLF 5 Unstable oily drops at top Oily drops at top Oily drops at top
Lenetol-HPLF 10 Unstable oily drops at top Oily drops at top Oily drops at top
Altranol-EPLF 5 Unstable oily drops at top Oily drops at top Oily drops at top
Altranol-EPLF 10 Unstable oily drops at top Oily drops at top Oily drops at top
A-386 5 Unstable oily drops at top Oily drops at top Oily drops at top
A-386 10 Unstable oily drops at top Oily drops at top Oily drops at top
A-387 5 Unstable oily drops at top Oily drops at top Oily drops at top
A-387 10 Unstable oily drops at top Oily drops at top Oily drops at top
COMPARATIVE ALKALI STABILITY(Na2CO3) AT VARIOUS TEMPERATURES
Solution : 1% solution of product
Product Na2CO3 Room Temp. At 75ºC At 95ºC
added g/l
Lenetol-HPLF 5 Oily drops at top Oily drops at top but Oily drops at top
but on shaking on shaking miscible but on shaking
miscible miscible
Lenetol-HPLF 10 Oily drops at top Oily drops at top but Oily drops at top
but on shaking on shaking miscible but on shaking
miscible miscible
Altranol-EPLF 5 Oily drops at top Oily drops at top but Oily drops at top
but on shaking on shaking miscible but on shaking
miscible miscible
Altranol-EPLF 10 Oily drops at top Oily drops at top but Oily drops at top
but on shaking on shaking miscible but on shaking
miscible miscible
A-386 5 Oily drops at top Oily drops at top but Oily drops at top
but on shaking on shaking miscible but on shaking
miscible miscible
A-386 10 Oily drops at top Oily drops at top but Oily drops at top
but on shaking on shaking miscible but on shaking
miscible miscible
A-387 5 Oily drops at top Oily drops at top but Oily drops at top
but on shaking on shaking miscible but on shaking
miscible miscible
A-387 10 Oily drops at top Oily drops at top but Oily drops at top
but on shaking on shaking miscible but on shaking
miscible miscible
Note : Bath with Alkali are stable in continuous process but on standing shows poor
stability.
Conclusion: ALTRANOL-EPLF & LENETOL-HPLF shows similar alkali stability.

8. 8
STORAGE STABILITY OF PRODUCT ITSELF AT 60ºC
LENETOL-HPLF ALTRANOL-EPLF A-386 A-387
Stable Stable Stable Stable
COMPARATIVE SCOURING EFFICIENCY (IN %)
LENETOL-HPLF ALTRANOL-EPLF A-386 A-387
3.74 3.75 4.97 4.56
COMPARATIVE % SCOURING EFFICIENCY
6
5
Scouring efficiency
4
Series1
3
2
1
0
LENATOL-HPLF ALTRANOL-EPLF A-386 A-387
Product
Note: Scoured fabric with above products shows spontaneous water absorbency & similar
dyeing (equal dye uptake) when dyed with reactive dye.
Conclusion:
ALTRANOL-EPLF & LENETOL-HPLF shows similar scouring efficiency & dyeing
property.
Remark:
The above results prove that both ALTRANOL-EPLF & LENETOL-HPLF are comparably
similar.