In Textile Dyeing Process
Dyeing:
It is the process that is used for the
coloration of different textile materials. In this step lots of dyes or pigment
and different types of auxiliaries are used for coloration of textiles. In the environment
it supply most of the waste water that is leads to inhibition of the sunlight
penetration and therefore of the photosynthesis. In addition, many dyes and
their degradation products are very toxic and harmful. It is not only things
that dyes cause problems in the environment, as they were developed to resist
harsh environmental factors for the lifetime of the colored textile. Pigments
are used for textile coloration have a very complex structure, with the
intention to make them resistant to breakdown by for instance exposure to
sunlight, water or soap.
The quantity of water use in dyeing is higher than other
textile process. Water is used not only in the dyeing process, but also for
rinsing of the dyed products. Water using is generally dependent on process
characteristics like the used equipment, fabric and dyestuff. So that in waste
water contains dyes, different auxiliary chemicals are used that also end up in
the wastewater. Typical pollutants generated in the dyeing step are color and
different auxiliaries, such as organic acids, fixing agents, defoamers, oxi
dising/ reducing agents, and diluents.
While a large amount of dyes leaves the process in an unfixed state, the exact
amounts and kind of pollution depends on the used dyes and the used process.
Dyeing contributes to most of the metals and almost all of the salts and color
present in the overall textile effluent. For some dyeing processes likes cotton
with reactive dyes, about 70% to 75% of the salts end up in the
wastewater.
Rinsing:
Rinsing generally used after several processes likes dyeing, different types of
finishing. Although rinsing is not only a separate textile process, but also it
is interesting to regard the generated wastewater separately when looking at
reuse possibilities. The wastewater from the rinsing steps is less polluted
than the other several process wastewaters from the preceding baths of the same
process. Many of the processes that take place before dyeing or after dyeing of
the fabric involve a number of hot or cold rinses. Rinsing is require after all
several steps that leave substances on the fabric that can influence the
subsequent processes, most importantly after dyeing or printing to remove
surplus (unfixed) dyestuffs from the fabric.
Depending on the using processes, rinsing can make up for around 50% of the
total water usage in textile wet processing. For several dyeing processes, the
rinsing water around 70- 80% of the total water consumption. A comparatively
easy way of taking advantage of the quality (and in some cases temperature) of
water from several rinsing steps in a process is counter-flow rinsing.
Counter-flow rinsing can be applied in many processes, depending on the process
and the used machinery.
In textile printing:
Printing:
Printing is the process of produce the attractive
design into textile material by applying print paste into the fabric. Generally
in printing, dyes and auxiliaries are near similar to those used in fabric
dyeing, with the difference that the color is only applied to specific parts of
the fabric .
An important chemical in textile printing is the print pastes, which consist of
water, thickeners, dyes, urea and various other chemicals like surfactants and
solvents. Urea is mainly used when printing cotton, viscose and silk, to
improve the solubility of the hardly water-soluble dyes and fix them on the
fabric.
Large quantity of residual pastes is produced in paste preparation and cleaning
of the equipment. Residual print pastes mainly result from washing the printing
matrices, tanks for paste preparation and matrix protective tissues. Other
sources are leakage of dyestuffs and washing of textile products.
In textile finishing:
§ Generally finishing require to impart some important characteristics likes make the textiles more softer or stiffer, improve the appearance of cloths, improve the strength of fabric, also improve the weight of the fabric.
§ Several types of chemicals and auxiliaries are used in textile finishing likes soil release finisher, flame retardant finisher, water proof finisher, anticrease finisher etc.
§ The chemicals are used generally they are derivatives of organic compound likes organic solvents, phenolic, sulfonate, nitrogen contain compound, laryl sulphate, etc.
§ The waste water from textile finishing 25% to 40% but it contain higher BOD, COD and suspended solids.
§ Several chemicals are containing some carcinogenic compound that are responsible for cancer.
§ A common disposal method is dilution of the residual pastes and disposal with the other waste water streams, where they considerably increase COD, nitrogen and dye loads.
§ The printing method determines the wastewater characteristics. Printing wastewaters are small in volume, but difficult to treat. Apart from the presence of solids and solvents from the print paste preparation, textile- printing waste waters resemble textile-dyeing waste waters. In addition, the concentration of the pollutants in printing wastewater is higher than for dyeing wastewater.
Woolen textile mill waste water:
Woolen fiber, unlike cotton is a fiber of animal origin. Wool contains
considerable quantities of dirt, grass , etc. Contain 30% fiber and 70% foreign
matter. In extreme cases, raw wool may contain as little as 30% fiber, 70%
foreign matter, of which 45% is grease. Wooling waste originated from scouring,
carbonizing, bleaching, dyeing, oiling, fulling and finishing operations.
§ Scouring: Wool grease and foreign matters are removed by Scouring with wool in hot alkali, soap and soda ash.
§ Wool Carbonizing: Material in wool that persisted through raw stock scouring and mechanical cleaning is removed by carbonizing. As this material does not dye together with the wool, undyed spots will be present throughout the dyed fabric. In the carbonizing process strong acid is used to degrade cellulose at high temperatures into brittle hydrocellulose, without damaging the wool. Excess acid is squeezed from the wool and the wool is then heated to oxidise the contaminants to gases and a solid carbon residue. Before further processing, neutralisation and rinsing are necessary due to remaining acids in the material. The generated wastewater has low organic matter content, but contains a high dissolved solids amount due to the acid treatment.
§ Dyeing: Hot dye solutions are circulated through the wool packed in a metal container. Waste water generated by dyeing is highly colored and contains many toxic substances.
§ Oiling: Usually olive oil or barg-oil-mineral-oil mixture is mixed with water and sprayed on the wool to increases cohesion of the fibers and aids in spinning operation.
§ Fulling: The loosely woven wool from the loom is shrunk into tight, closely woven cloth. To aid this process, chemicals like soda ash, soap etc are uesd. Excess fulling chemicals, all of the oil etc are washed out of the fabric in a finishing process.
§ Finishing: Waste from a dyeing and finishing process are contributed by the spent liquors and by subsequent washing of wool after bleaching, dyeing, and finishing.
§ Wool Felting: Woolen fabric is treated to cause the material to mat, shrink, and thus become denser. This process is usually carried out after carbonizing, but it can also take place on raw fabric. Felting involves the use of hot solutions of soda ash or sulphuric acid. The fabric is thoroughly washed afterwards. Wastewater gene rated in this step has a very high BOD content. Traditionally either acid or alkali conditions are applied, but with modern auxiliaries felting can be performed very well at neutral pH.
Synthetic textile
industry:
§ Synthetic industry firstly produce synthetic Fiber by the polymerization process in which different types of polymer is used likes PET, polyethylene, HDPE, PETE etc.
§ The wastewater is generally colored and contains alkalis, organic solvents, resins, PVA, etc. The effluent has high values of COD and BOD. The origin of wastes is more or less same as above.
Prospects of
Bangladesh:
§ The dyeing and finishing plants are the major pollutants of our water. Turag that flows by Tongi is almost dead with pollution. Its water looks ink black and gives out such a foul smell that one can literally feel their lungs tingling with each breath.
§ Bangladesh has some 789 dyeing and finishing factories to serve some 4,000 garment factories, according to IFC. They are the major consumers of underground water and also contributor to pollution.
§ IFC looked closely at Konabari area in Gazipur, which houses 33 washing, dyeing and finishing units. They consume about 13 billion litres of fresh water a year.
§ For the average jeans you wear that weigh 1kg, it takes 250 litres of water to wash. And all this has to be sweet water, a precious commodity, pumped out from underground. This implies that the textile factories are also the largest contributors of the cluster’s water scarcity as well as pollution challenges.
§ It does not need to use all that water to wash every kg of apparel. As we said earlier, Bangladesh uses 250 litres of water whereas the global standard is 60 to 70 litres . That is four times less than what we use. Experts say this use of water can be further reduced to 13.5 liters.
§ Every year, around 21.6 million cubic metres of water were saved by the intervention of Partnership for Cleaner Textile (PaCT) programme of International Finance Corporation (IFC), which worked with 200 factories.
§ Two things happen when such a huge quantity of water is pumped out. First, we create a hollow underground. As the hollow grows, it creates chances for the earth to cave in.
§ And secondly, as more and more water is pumped out, the water table goes down. We can find this actually happening in Dhaka where every year the water level is dropping by 2.5 percent. This means we have to dig deeper and deeper to pump the same water out. The water table is not infinite. One day, it will go dry if not recharged. We will not have any more water to pump out. A real disaster will take place.
Effects of mill wastes:
§ The crude waste if discharged into streams causes rapid depletion of the dissolved oxygen of the streams.
§ The alkalinity and the toxic substance like sulphides and chromium affect the aquatic life and also interfere with the biological treatments.
§ The colour often renders the water unfit for use for some industrial purposes.
§ The presence of sulphides makes the waste corrosive particularly to concrete structures.