Bio-Scouring Process: A Sustainable Bio-Scouring Process for Better Fabric Dying
Shahadat Hossain
B.Sc. in Textile Engineering
Textile Engineering College, Zorarganj, Chattogram
Abstract:
Bio-scouring is a beneficial and sustainable alternative to traditional scouring, aligning with the growing trend toward greener textile production methods and contributing to high-quality, durable, and environmentally friendly textiles. The use of enzymes in the textile industry can be considered the best possible use of the bio-processing technique. The use of enzyme treatments in the textile industry is very promising, as they are environmentally friendly, produce high-quality products, and reduce the use of water, energy, and time.
Keywords: Bio-preparation, bio-scouring, dyeing, cost saving, enzyme treatment.
Introduction:
Bio-scouring is an eco-friendly alternative to traditional chemical scouring processes, used to prepare fabrics, especially natural fibers like cotton, for dyeing. Traditional scouring involves harsh chemicals to remove impurities (such as pectin, waxes, and oils) that can inhibit dye uptake. Enzymatic treatment, i.e. bio-scouring, provides an environmentally friendly alternative. The biggest advantage of bio-scouring is that it does not destroy the cellulose structure and hence prevents the loss of cellulose weight and stress. The enzymatic process called bio-scouring allows cotton to be treated under very mild conditions. Due to use of less rinse water, bio-scouring process reduces both effluent as well as water consumption. In bio-scouring alkaline pectinase enzyme is used for natural cellulosic fibers such as cotton, linen, hemp and blends. It removes pectin and other impurities from the primary cell wall of the cotton fibers without degradation of cellulose and thus has no negative effect on strength properties of the fabric strength.
Many conditions are important to the performance of the enzymes, such as the concentration of the enzymes in the bath, the time and temperature of treatment, the pH of the bath, and additives. The pH of the environment is crucial for the activity and stability of the enzyme, which ranges between 5 and 9. An alkaline or acidic environment depends on the type of enzyme. Acidic enzymes work in a slightly acidic medium (pH between 4 and 6) and alkaline enzymes work in a slightly alkaline medium (pH between 7 and 9). Care must be taken to monitor the pH, as extreme values lead to collapsing the three-dimensional form of the enzymes and losing their catalytic behavior. A non-ionic surfactant helps in the smooth functioning of the scouring process.
The main enzyme class used in bio-scouring is pectinases. They are used to specifically remove pectin lattice, the biological “glue”, in the surface of the fiber. In particular, pectin lyases and pectate lyases or transeliminases are used in bio-scouring. Cellulases may assist pectinases by increasing their accessibility to the pectin material.
Preparation of Fabric:
- The fabric is prepared by inspecting it and removing any foreign particles.
- Wetting agents may be applied to ensure even distribution of water and enzymes during the treatment.
Enzyme Selection:
- Pectinase enzymes are primarily used because they break down pectins, which bind waxes and other impurities to the fiber.
- Depending on the fabric composition, additional enzymes like cellulase or lipase may be used to target specific impurities.
Procedure of Bio-Scouring:
According to Pan N. C. et al. (2013) enzymes and non-ionic surface active agents were used for bio-scouring process. The temperature of the bath was maintained at 50°C for 2 hours, keeping the material to liquor ratio at 1:10. The pH of the bath was maintained by using acetic acid and sodium acetate buffer. After the treatment, the temperature of the bath was raised to 90°C and maintained at that temperature for 15 minutes after which the samples were washed and dried.
Recipe Formulation:
Enzymatic scouring was carried out by the following recipe-
- Enzyme: ………………………………………3 g/L or 0.5%
- Sequestering agent: ………………………1 g/L
- Wetting agent: ……………………………..2 g/L
- Temperature: ……………………………….60oC
- Time: …………………………………………30 min
- M: L: …………………………………………1:10
- pH: ……………………………………………8 -9
Enzyme Inactivation:
After finishing treatment, it is essential to complete the reaction at the end by inactivating the enzyme to avoid damage to the fabric. Failure to inactivate the enzyme at the end results in damage to the fibers and, in extreme cases, the destruction of the whole fabric material. Therefore, from a technical perspective, inactivation of the enzyme is very important.
There are two processes of inactivation of enzyme:
- Hot treatment at 80°C for 20 minutes.
- By raising the pH to 11-12.
Action on Impurities:
The enzymes break down the impurities, specifically targeting pectin and waxy substances, which bind the cotton fiber’s non-cellulosic impurities. This makes it easier to remove these impurities without damaging the cellulose.
Rinsing & Neutralization:
Rinsing:
After enzyme treatment, the fabric is thoroughly rinsed with water to remove the broken-down impurities.
Neutralization:
In some cases, mild acids are added to neutralize any remaining enzymes and adjust the pH back to a neutral or slightly acidic level, which is gentler on the fibers.
Drying:
The fabric is then dried through methods such as air drying, tumble drying, or other industrial drying processes.
Conclusion:
One of the most worrying situations in the textile industry is its environmental impact. Pollution-free processes are becoming more and more popular worldwide. In this context, enzymes are emerging as the new and best alternative to conventional methods of textile processing. Currently, enzymes are being adopted for all types of textile processing that are used in the textile industry, such as bio-scouring. Bio-scouring is biodegradable, environmentally friendly, and the most commonly used wet processing method in the textile industry. Bio-scouring has gained a lot of attention in the textile industry in recent times. The process involves washing the fabric with an enzyme to remove the impurities and waxy material from the fiber. The enzyme hydrolyzes the glucose bond b1-4 and produces a permanent effect. This process removes impurities from the fabric, smooths the surface of the fabric, gives it a cleaner and shiny appearance, makes the fabric softer and cooler, and improves its overall surface appearance. Bio-scouring serves textile processing industries and creates awareness for adopting eco-friendly textile processing methods. It helps the textiles industry grow and thrive in a sustainable manner for future prosperity and happiness
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This article is written by a guest author and reviewed, revised and edited by Tariq Bin Mutalib, Editor in Chief, TextileFact.com.