CN111235908A

CN111235908A - Water-saving and energy-saving dyeing method for terylene

Info

Publication number: CN111235908A
Application number: CN202010086103.XA
Authority: CN
Inventors: 王春梅; 陈何卿; 吴云; 董艳超; 李龙飞
Original assignee: Nantong University
Current assignee: Nantong University
Priority date: 2020-02-11
Filing date: 2020-02-11
Publication date: 2020-06-05
Anticipated expiration: 2040-02-11
Also published as: CN111235908B

Abstract

The invention discloses a water-saving and energy-saving dyeing method for terylene, which comprises the following steps: A. preparation of eutectic solvent: mixing choline chloride, glycerol and benzyl alcohol according to the molar ratio of 1: 1, and heating and stirring in water to obtain a eutectic solvent; B. preparing a dye solution: dispersing dye, namely mixing DES and water according to volume ratio and bath ratio, and then uniformly stirring to prepare dye liquor; C. dyeing: adding pretreated terylene into a dye solution, heating to 98-100 ℃ at the speed of 1.5-2 ℃/min, and preserving heat for 40-60 min for dyeing; D. and (3) dyeing post-treatment: the dyed terylene is washed by hot water at 60 ℃, then washed by cold water, dehydrated and dried, the method has the advantages of extremely low water consumption, low dyeing temperature, no need of adding dyeing auxiliaries such as dispersing agent and the like, no need of reduction washing, reusable dyeing medium, water and energy conservation, and capability of reducing the influence of the traditional aqueous phase dyeing method on the environment.

Description

Water-saving and energy-saving dyeing method for terylene

Technical Field

The invention relates to the technical field of water-saving and energy-saving low-temperature dyeing of terylene, in particular to a water-saving and energy-saving dyeing method of terylene.

Background

Polyester fiber is a commonly used textile fiber, and is usually dyed with disperse dyes. The traditional disperse dye dyeing uses water as a medium, the dyeing temperature is high, a plurality of dyeing auxiliaries are added into a dye bath during dyeing, reduction cleaning is carried out after dyeing, the whole dyeing process consumes a large amount of water and chemicals, discharged wastewater contains various surfactants which are difficult to remove and unused dyes, and the sewage treatment cost is increased. In order to reduce the pollution to the environment, people improve the dyeing process on the one hand, and hopefully, the utilization rate of the dye can be improved, and the use of water and chemical auxiliary agents can be reduced; on the other hand, a dyeing medium capable of replacing water is continuously sought, and it is desired to realize waterless dyeing. At present, most of non-aqueous medium dyeing methods studied at home and abroad mainly comprise: vacuum sublimation dye dyeing, supercritical carbon dioxide dyeing, non-aqueous solvent dyeing and the like. The vacuum sublimation dyeing is that the dye is sublimated into a gas state at a higher temperature or under a vacuum condition, is adsorbed on the fiber and diffuses into the fiber, and finally the dyeing process is finished. The dyeing technology has high requirements on dyes, the dye sublimation speed is not easy to control, uneven dyeing is easy to cause, the requirements on equipment are high, the equipment pollution is serious, and the cleaning is difficult. The supercritical carbon dioxide dyeing technology is a non-aqueous medium dyeing method which is widely concerned by countries in the world in recent years, although the supercritical carbon dioxide dyeing technology has made great progress in dyeing, some commercial scale prototypes have appeared, but a great problem exists in the polyester fiber dyeing that the oligomer in the polyester fiber can be transferred to the surface of the fabric and the inner surface of dyeing equipment, and the quality of the dyed fabric and the operating efficiency of a dyeing machine are influenced. In addition, supercritical carbon dioxide dyeing requires high-pressure equipment, which is high in requirements on operators and high in cost. The solvent dyeing has the advantages of high production efficiency, no sewage treatment problem, low energy consumption and the like, can solve the oligomer problem in the dyeing of the polyester fabric, and is more and more valued by people. However, solvent dyeing also has the disadvantages of high cost and troublesome solvent recovery. The influence of the solvent on the performance of fiber, dye and dyed fabric as well as health, safety and environment is comprehensively considered, and the selection of a proper dyeing solvent is the key for determining the development of the solvent dyeing technology.

Disclosure of Invention

The invention aims to provide a method for dyeing terylene by using a deep eutectic solvent of choline chloride, glycerin and benzyl alcohol as a dyeing medium and using disperse dye at the temperature of nearly 100 ℃. Choline chloride and glycerol are typical eutectic solvents, are potential green solvents, have simple and convenient synthesis process and low price, and are widely applied to the fields of electrochemistry, catalysis, organic synthesis, dissolution and extraction and material chemistry. The method for dyeing the terylene by using the choline chloride, the glycerol and the benzyl alcohol eutectic solvent as the dyeing medium has the advantages of extremely low water consumption, low dyeing temperature, no need of adding dyeing auxiliaries such as a dispersing agent and the like, no need of reduction cleaning, reusability of the dyeing medium, water and energy conservation, and capability of reducing the influence of the traditional aqueous phase dyeing method on the environment, and solves the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a water-saving and energy-saving dyeing method for terylene comprises the following steps: a water-saving and energy-saving dyeing method for terylene comprises the following steps:

A. preparation of eutectic solvent: mixing choline chloride, glycerol and benzyl alcohol according to the molar ratio of 1: 1, and heating and stirring in water to obtain a eutectic solvent;

B. preparing a dye solution: dispersing dye, namely mixing DES and water according to volume ratio and bath ratio, and then uniformly stirring to prepare dye liquor;

C. dyeing: adding pretreated terylene into a dye solution, heating to 98-100 ℃ at the speed of 1.5-2 ℃/min, and preserving heat for 40-60 min for dyeing;

D. and (3) dyeing post-treatment: and (3) washing the dyed terylene by hot water at 60 ℃, then washing by cold water, dehydrating and drying.

Preferably, the eutectic solvent is obtained by heating and stirring in a water bath at 40 ℃ according to the step A until a transparent liquid is formed.

Preferably, 1-3% (owf) of the dye is dispersed according to the step B, the DES and the water are uniformly stirred according to the volume ratio of 70-80: 30-20 and the bath ratio of 20: 1 at 40 ℃ to prepare the dye solution.

Preferably, the disperse dye according to step B is a low-temperature type or a medium-temperature type disperse dye.

Preferably, the pretreatment according to the step C is oil removal, desizing, impurity removal treatment or alkali reduction treatment, and the terylene is terylene fiber, knitted fabric, woven fabric or non-woven fabric.

Preferably, the dyed terylene is washed twice with hot water at 60 ℃ and twice with cold water according to the step D.

Compared with the prior art, the invention has the beneficial effects that:

the technical scheme provided by the invention uses choline chloride, glycerin and benzyl alcohol eutectic solvent to replace water as a dyeing medium, and uses disperse dye to dye terylene at the temperature of nearly 100 ℃, the method has the advantages of extremely low water consumption, low dyeing temperature, no need of adding dyeing auxiliaries such as dispersing agent and the like, no need of reduction cleaning, reusable dyeing medium, water and energy conservation, capability of reducing the influence of the traditional aqueous phase dyeing method on the environment, and wide application prospect.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides the following technical scheme: a water-saving and energy-saving dyeing method for terylene comprises the following steps:

Mixing choline chloride, glycerol and benzyl alcohol according to a molar ratio of 1: 1, heating and stirring in a water bath at 40 ℃ to form a transparent liquid, and preparing a eutectic solvent (DES), wherein the disperse dye is 1-3% (owf), and is a low-temperature or medium-temperature disperse dye.

Uniformly stirring DES and water according to the volume ratio of 70-80: 30-20 and the bath ratio of 20: 1 at 40 ℃ to prepare a dye solution, adding polyester fibers, knitted fabrics, woven fabrics and non-woven fabrics which are subjected to oil removal, desizing, impurity removal treatment or alkali reduction treatment into the dye solution, heating to 98-100 ℃ at the speed of 1.5-2 ℃/min, preserving heat for 40-60 min to dye, washing the dyed polyester twice with hot water at 60 ℃, then washing twice with cold water, and drying after dehydration.

Example 1: a dyeing method of blue polyester pongee comprises the following specific steps: A. preparation of eutectic solvent (DES): respectively weighing 35g of choline chloride, 23g of glycerol and 27g of benzyl alcohol (0.25 mol of each), mixing, heating in a water bath at 40 ℃, and stirring to form transparent liquid, thus obtaining a eutectic solvent; B. preparing a dye solution: weighing 0.05g of Yatelong according to the dyeing depth of 1% (owf)

Adding blue AQE dye into 20mL of water, uniformly dispersing, then adding 80mL of the prepared DES, and uniformly stirring at 40 ℃ to prepare 100mL of dye solution; C. dyeing: adding 5g of polyester fabric into the dye solution, heating to 100 ℃ at the speed of 2 ℃/min, and preserving heat for 40min for dyeing; D. and (3) dyeing post-treatment: washing the dyed polyester fabric twice with hot water at 60 ℃, then washing twice with cold water, dehydrating and drying. The K/S value of the dyed fabric was found to be 3.281 and both the crockfastness and the soaping fastness reached level 5.

Example 2: a dyeing method of red polyester pongee comprises the following specific steps: A. preparation of eutectic solvent (DES): respectively weighing 35g of choline chloride, 23g of glycerol and 27g of benzyl alcohol (0.25 mol of each), mixing, heating in a water bath at 40 ℃, and stirring to form transparent liquid, thus obtaining a eutectic solvent; B. preparing a dye solution: weighing 0.15g of disperse ruby SE-GFL dye according to the dyeing depth of 3% (owf), adding the dye into 30mL of water for uniform dispersion, then adding 70mL of the prepared DES, and uniformly stirring at 40 ℃ to prepare 100mL of dye solution; C. dyeing: adding 5g of polyester fabric into the dye solution, heating to 100 ℃ at the speed of 1.5 ℃/min, and preserving heat for 60min for dyeing; D. and (3) dyeing post-treatment: washing the dyed polyester fabric twice with hot water at 60 ℃, then washing twice with cold water, dehydrating and drying. The K/S value of the dyed fabric is measured to be 8.764, and the rubbing fastness is 5 grade, the soaping fastness is 4-5 grade.

Example 3: a dyeing method of red polyester pongee comprises the following specific steps: A. preparation of eutectic solvent (DES): respectively weighing 35g of choline chloride, 23g of glycerol and 27g of benzyl alcohol (0.25 mol of each), mixing, heating in a water bath at 40 ℃, and stirring to form transparent liquid, thus obtaining a eutectic solvent; B. preparing a dye solution: weighing 0.30g of disperse ruby SE-GFL dye according to the dyeing depth of 5% (owf), adding the dye into 40mL of water for uniform dispersion, then adding 60mL of the prepared DES, and uniformly stirring at 40 ℃ to prepare 100mL of dye solution; C. adding 5g of polyester fabric into the dye solution, heating to 100 ℃ at the speed of 1.0 ℃/min, and preserving heat for 80min for dyeing; D. and (3) dyeing post-treatment: washing the dyed polyester fabric twice with hot water at 60 ℃, then washing twice with cold water, dehydrating and drying. The K/S value of the dyed fabric is measured to be 14.247, and the rubbing fastness is 5 grade, the soaping fastness is 3-4 grade.

Example 4: a dyeing method of red polyester pongee comprises the following specific steps: A. preparation of eutectic solvent (DES): respectively weighing 35g of choline chloride, 23g of glycerol and 27g of benzyl alcohol (0.25 mol of each), mixing, heating in a water bath at 40 ℃, and stirring to form transparent liquid, thus obtaining a eutectic solvent; B. preparing a dye solution: weighing 0.45g of disperse ruby SE-GFL dye according to the dyeing depth of 7% (owf), adding the dye into 50mL of water for uniform dispersion, then adding 50mL of the prepared DES, and uniformly stirring at 40 ℃ to prepare 100mL of dye solution; C. dyeing: adding 5g of polyester fabric into the dye solution, heating to 100 ℃ at the speed of 0.5 ℃/min, and preserving heat for 100min for dyeing; D. and (3) dyeing post-treatment: washing the dyed polyester fabric twice with hot water at 60 ℃, then washing twice with cold water, dehydrating and drying. The K/S value of the dyed fabric is measured to be 19.73, the rubbing fastness is 5 grade, the soaping fastness is 2-3 grade.

Dyeing material of blue dacron pongee

In conclusion, the technical scheme provided by the invention uses choline chloride, glycerol and benzyl alcohol eutectic solvent to replace water as a dyeing medium, and uses disperse dye to dye terylene at the temperature of nearly 100 ℃, the method has the advantages of extremely low water consumption, low dyeing temperature, no need of adding dyeing auxiliaries such as dispersing agent and the like, no need of reduction cleaning, reusability of the dyeing medium, water and energy conservation, capability of reducing the influence of the traditional water-phase dyeing method on the environment, and wide application prospect.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A water-saving and energy-saving dyeing method for terylene is characterized in that: the method comprises the following steps:

2. The water-saving and energy-saving dyeing method for the terylene according to claim 1, which is characterized in that: and B, heating and stirring in a water bath at 40 ℃ according to the step A until a transparent liquid is formed, thus obtaining the eutectic solvent.

3. The water-saving and energy-saving dyeing method for the terylene according to claim 1, which is characterized in that: and B, dispersing 1-3% (owf) of the dye according to the step B, uniformly stirring DES and water according to the volume ratio of 70-80: 30-20 and the bath ratio of 20: 1 at 40 ℃ to prepare a dye solution.

4. The water-saving and energy-saving dyeing method for the terylene according to claim 1, which is characterized in that: and B, the disperse dye is a low-temperature or medium-temperature disperse dye.

5. The water-saving and energy-saving dyeing method for the terylene according to claim 1, which is characterized in that: and C, performing pretreatment including oil removal, desizing, impurity removal treatment or alkali reduction treatment according to the step C, wherein the terylene is terylene fiber, knitted fabric, woven fabric or non-woven fabric.

6. The water-saving and energy-saving dyeing method for the terylene according to claim 1, which is characterized in that: and D, washing the dyed terylene twice with hot water at 60 ℃ and then with cold water twice.