Introduction


The textile industry is one of the major contributors towater pollution in India. The various processes that contribute to waterpollution are sizing, desizing, scouring, bleaching, mercerization, dyeing,printing and finishing. Each process uses various chemicals that are let outinto effluents. Thus, by dumping chemical effluents the eco-balance of naturehas been gradually disturbed. In recent years there has been a growing need forcontrolling pollution through industrial effluents and full fledged efforts arebeing made by governments the world over to draw up or to tighten thelegislation pertaining to the controls on the types and extent of pollutantsthat could be passed onto nature.


The consumption of cotton is almost half of the world'stotal fibre consumption and it is expected to maintain this position during thecurrent century. Surveys conducted on the consumption of dyes the world over,indicate that in the next five years, the sulphur, direct, vat and indigo dyeswill remain constant, azoics will continue to decline, and reactive dyes willshow increase. The lack of growth of dye classes other than reactives may beattributed to factors such as high price and limited supply, environmentalproblems and technological obsolescence.


Reactive dyes -promise of the future


It has been estimated that the use of reactive dyes wouldraise up to 50% by 2004. Though the reactive dyes can minimize the effluentproblems, yet two problems need to be tackled viz.


  1. Colour in the effluent
  2. Minimization of chemical usage


Removal of colour in the effluent


The removal of colour from the effluent is rather expensivewith the conventional technique. Unlike other classes of dyes, in the case ofreactive dyes, sometimes as high as 30% dye remains unbound during primarytreatment and needs to be treated either on site as a secondary process afterbiological oxidation or at a municipal sewage works.


Unrelenting govt. pressure for regulating industrial effluentdischarge has led to the development of new reactive dyes, machinery andprocesses to minimize waste and colour in the effluent. The development of bifunctional reactive dyes is important from this point of view.


Bi functional reactive dyes consist of two reactive groupscapable of forming covalent bonds with the fibre. Dyes with two separatereactive groups can, in true sense, be called bi functional. These bifunctional dyes can be of two types.


  1. Those consisting of two similar reactive groups (homo bi functional reactive dyes) and
  2. Those with two different reactive groups (hetero bi functional reactive dyes)


The Table 1 shows various homo bi functionaland hetero bi functional reactive dyes, which are presently being marketed. Thehomo bi functional dyes were developed for high temperature ranges in exhaustdyeing with substantially increased exhaustion and fixation. This led to betterdye utilization and resulted in less hydrolyzed dye and less effluent.

 

The hetero bi functional dyes possess various advantagessuch as excellent stability during storage, good fastness to light,perspiration & chlorine.


 

Two or even three reactive groups in a dye molecule do not guarantee 100% fixation efficiency and thus a through wash off procedure is essential, particularly in heavy shades. Perhaps, the answer may be the design of more effective after-treatment agents to interact with the hydrolyzed dye during the finishing process, allowing the small amount of hydrolyzed dye to be chemically immobilized in the fibre.

 



In a continuous dyeing operation, minimization of dye liquor wastage is a major environmental consideration to reduce colour in the effluent. Recent developments have made it possible to decrease the pad liquor volume to 10 litres as the fabric comes to the end of the run.


Minimization of chemical usage


There are various methods to minimize the use of chemicals, some of which are listed below:


  • Process innovations in continuous dyeing
  • Dyeing at low liquor ratio
  • Right - first time approach


 

Process innovations in continuous dyeing


Continuous dyeing of reactive dyes is carried out by cold pad-batch, pad dry-thermo-fix, pad-steam and pad-dry-chemical, pad-steam processes. These involve the use of various chemicals such as urea, soda ash, caustic soda, salt and sodium bicarbonate which cause loading of the effluent to various extents.


Use of low salt reactive dyes


During effluent treatment, only a small quantity of salt is removed. Thus a major quantity of salt enters the environment on discharge of effluent treated water. High salt concentration in the effluent has a number of disadvantages such as toxicity to organisms & also causes land infertility.

The following are the approaches to minimize the salt load.


  1. Dyeing at low liquor ratio
  2. Using dye classes other than reactive e.g., vat requiring low salt concentration for dyeing.
  3. Using reactive dyes which give high exhaustion and fixation at low salt concentration.


Low - salt dyes have been developed which require only 20g/litre salt, where as the conventional reactive dyes require 60-80 g/litre salt for exhaustion. As the salt requirement is reduced to 1/4 of that required for conventional dyes, the saving in cost is observed. Another benefit is that rising step after dye application is much faster and less water is needed.


Dyeing at low liquor ratio


Lowering of liquor ratio brings down the volume of water used and the waste generated. Apart from the easier handling of lower volume of effluent, the dosing of chemicals and auxiliaries in the dye bath is done on the basis of g/litre of liquor. This significantly reduces the quantities of chemicals and auxiliaries and finally the effluent load. In reactive and vat dyeing systems, a change of liquor ratio from 1:10 to 1:5 brings about a decrease in pollution load by about 40%.


Right - first - time approach


Carefully following the dye stuff manufacturer's recommendations for salt, alkali usage, temperature, time etc. ensures the optimum fixation levels and right first time production; thereby avoiding the need to make shading additions. The computer colour matching is helpful in this regard.


Conclusions


Owing to its comfort properties, cost effectiveness and environment friendliness, consumption of cotton is estimated to increase world wide. Among the various classes of dyes suitable for dyeing cotton, the use of reactive dyes is going to increase in comparison to direct, azoic vat and sulphur dyes. Some of the approaches adopted for eco friendly colouration of cotton with reactive dyes include the use of bi functional reactive dyes having high exhaustion and fixation. Properties, low - salt reactive dyes, machinery developments for dyeing at low liquor ratio, pad troughs with reduced volumes, replacement of urea with dicyandiamide, econtrol process etc.


Research, is in progress for replacement of sodium hydro-sulphite in vat dyeing and sodium sulphite in sulphur dyeing. The use of iron (II) complexes for vat dyes and glucose for sulphur dyes seem to be promising.


References:


  1. Sadov. F., Chemical Technology of Fibrous materials (MIR Publisher, Moscow)
  2. Chavan R.B. and Chakraborty. J.N. Alternative reducing systems based on iron (II) complexes for the dyeing of cotton with vat dyes, International Textile symposium, Natal, Brazil, April 2000.
  3. Shore J., Cellulosic Dyeing (Society of Dyers and Colourists, London), 1995.
  4. Bechtold. T.J. Soc Dyers Colour, 113 (1997) 135.
  5. Vashi S.J., and Desai. K. R, American Dyestuff Reporter, 84 (1995 52.
  6. Rudolf. K., J Soc Dyers Colour, 98 (1992) 106.


About the Author:


The author is Senior Lecturer, Dept. of Textile Technology, Kumaraguru College of Technology, Coimbatore.