Textile Sustainable Denim Dyeing

 

Advanced Denim for more Sustainable
Denim Colors and Effects 

Almost 2 billion pairs of jeans are manufactured every year, no item of clothing is more popular then the  starting material is cotton. which passes through numerous processing steps from the cotton field to the finished thread in the textile factory.

The raw cotton is fluffed up cleaned and the single fibers are pressed into loose strands before being spun into yarn.

Since the gold digger era the yarn for jeans has been dyed blue with indigo. With advanced denim ,  now a days a more eco-friendly era of traditional dyeing, in which indigo requires the use of long production lines. Some stretching to more than half a mile in length.

These machines consume enormous amounts of water and energy. Moreover when the color is changed most batches create large amounts of cotton waste, because of the metre dispose off, all the fibres still inside the machine.

After spinning up to 4500 cotton threads of simultaneously pre wedded, decreased with chemicals and cleaned in several preparation lines, now the actual dyeing process begins with an average of 10 % immersed in the first indigo dyeing box.

Indigo in its natural agglomerate state is not soluble in water and in this state cannot penetrate into the fiber material. The molecules have to be separated to make them water-soluble. This is done by reduction of the double bonded oxygen in this reduction process.

The strong reducing agent sodium hydrosulfide causes the indigo to take up negative charges. The molecules repel each other making the indigo soluble in water.

In this process indigo loses its the resulting finely dispersed indigo molecules can L settle on the top layer of the cotton fiber the yarn fibers are then exposed to atmospheric oxygen which removes the negative charges from the indigo molecule causing the oxidant groups to return to the original form in other words they are oxidized the indigo.

molecules turn blue again the dye is no longer water-soluble and adheres to the fiber for intensive and uniform dyeing the cotton has to pass through 6 to 15 consecutive dyeing that's because the fiber absorbs the indigo only very slowly this process not only consumes vast amounts of energy but also an above all .

Large quantities of water in  the next step removes the chemicals previously added for cleaning and reduction as well as the unbound indigo in several washing boxes.

This produces large volumes of coloured waste water contaminated with sulfides which adversely impact the aquatic ecosystem. 

The yarn fibers are now dried and during the sizing process ,same coated with a film of starch to protect them during the stressful weaving process that follows the conventional production process.

According to National Geographic magazine an estimated water consumption of 11,000 litres for each pair of the groundbreaking technology of advanced denim the new pad sizing ups process provides savings of up to 92% water 30% energy and 87% cotton waste during dyeing and sizing and generates absolutely no waste water.

Central to the new process is the more eco-friendly,  concentrated liquid sulfur dyes with a high affinity for cotton just a single dyeing bugs and one sugar base reducing agent are needed to obtain a medium color intensity for the next step is a combined sizing and oxidation box in which the dye is fixed and the protective starch layer is applied all the other working steps are eliminated.

In chemical terms dyeing with sulfur dyes closely resembles the traditional indigo process but sulfur dyes not only have the oxygen groups but also sulfur containing functional groups known as tiles in the first step as with indigo the dye molecule is reduced causing it to dissolve in the water and change color in the oxidation process. That follows the dye is fixed to the fiber by a strong ionic bonds and the final color develops the sulfur groups can cross link with each other and can also bond very strongly to the fiber via the fixing agent this improves the strong color fastness and high abrasion.

Link may be utilized:

https://bindaprocess.blogspot.com/2022/02/denim-rope-dyeing-automation-2022.html

https://bindaprocess.blogspot.com/2022/02/denim-fabric-stucture-application.html

https://bindaprocess.blogspot.com/2022/02/denim-production-process.html

Textile Rope Dyeing Automation/ Troubleshooting

 

TEXTILE ROPE DYEING AUTOMATION / TROUBLESHOOTING

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How to retrofit the current Rope Dyeing  processing line to increase the maximum yield with minimum rejection and maximum efficiency?

This report aims to provide the details of introducing a dosing pump and the hydro feeder in the current 3 in 1 circulation line for getting efficient and uniform (without variation) dyed product, it is observed that the current line lacks the proper feeding system which is disturbing the consistency of shade at some place, in this report three types of designed are given for making an efficient dyeing line to resolve this problem. 

INTRODUCTION

The purpose of the report is to recommend the installation of dosing pump and hydro feeder for minimizing the variations. Because the current line has no such components and for fulfilling their requirements the mobile pumps are used as alternatives  which are not functioning efficiently.

 

PROBLEMS ASSOCIATED WITH CURRENT DESIGN 

•       The mobile pumps didn’t have the proper stirring system which restricts the chemical to mix properly as a result of which the denser chemical settled down at the bottom.

•       They also don’t have the leveling system which increases the chances of making incorrect level.

•       The denser chemicals which settled down are sometime accumulate with in the pipe and as a result of which the pump get choked.

•       Mobile pumps not fulfill the basic requirement of more than 7 liters and also not worked properly at limited feeding of > 1.

•       Whereas for the continual feeding of dye, topping pump is used whose head is at a far distance from the box, which generates the heat for maintaining such a high pressure and might be get stop in the future long production runs. 

RECOMMENDATIONS

The above issues could be resolved by making some alteration in the current line, and for this three type of design are given below that could solve this problem.

 

 DESIGN 1

DESIGN 2

 

 

DESIGN 3

CONCLUSION

By selecting one of the three  above designs the system could be perform better then present, the sedimentation will not occur because of the introduction of  hydro feeding system which is directly attached with the main circulation line of the box. Besides this the installation of dosing pump in the 3 in 1 tank allows the continual flow of dye at constant rate without making any of the high heat loses, because of the low head distance and this pump will also be used for high feeding . Moreover, the topping pump could be used for the caustic feeding to completely eliminate the mobile pump from the line.

This may also be viewed:

https://bindaprocess.blogspot.com/2022/02/textile-sustainable-denim-dyeing.html

https://bindaprocess.blogspot.com/2022/02/denim-fabric-stucture-application.html

https://bindaprocess.blogspot.com/2022/02/denim-production-process.html?m=1