Implement of Predrying to Enhance Productivity of Existing Stenter in Knit Finishing Industry

The aim of this paper is to enhance the productivity of existing stenter machine in knitting manufacturing industry. Stenter is one of the most costly machine in knit finishing industry. When the production per hour in kilogram of this machine was increased, then the production cost per kilogram of the fabric was decreased. To decrease the production cost, enhancing the productivity of stenter is an important issue in textile industry. The productivity of the existing stenter was increased by minimum 25% after implementing an additional predrying unit of the existing stenter at reasonable price which is described in this paper. Most of the characteristics of the fabric were same as before.


Introduction
This research is significant in the field of knitting technology.
Stenter is a machine or apparatus use for stretching or stentering fabrics. For decades, the stenter frame has been a global synonym of top-rate technology for best results in the finishing treatment of woven and knitted fabrics [1]. Cotton fabric shrinks widthwise and weft distorted due to pretreatment and dyeing process [2]. The main function of the stenter is to stretch the fabric width wise and to recover the uniform width [3]. The purpose of the stenter machine is to bring the length and width to pre-determined dimensions and also for heat setting and it is used for applying finishing chemicals and also shade variation is adjusted. Stenter is used for open form fabric [4].
New features make the stenter frame now even more economical in operation, more universal in use and improve its eco balance even further [5]. Additionally, there are special solutions for pigment dyeing processes and the even more profitable finishing of knitted fabrics [6]. Heat setting is done by the stenter for lycra fabric, synthetic and blended fabric [7].
In Stenter, squeezed wet fabric pass through the first chamber of stenter at the highest of about 150-2000C and water inside fabric is vaporized [8]. If speed of the fabric is increased then, the rate of the vaporization decreased and vice-versa [9]. Though the speed capacity of a stenter is higher but it cannot be used 100% but 50-75% at the best due to vaporization of water mainly. At the end, total production of a stenter decrease [10]. In this situation, a predrying unit with steam temperature can evaporate water and feed dry fabric in first chamber which can increase speed of inlet fabric as well as productivity of the stenter [11]. The present research work is on the basis of this principle.

The Experimentation
The Loadcell of Cylinder and control system, it keeps the tension of the fabric constant even in the most sensitive fabrics.
The cylinder surface is coated with Teflon. The ability to keep the cylinder temperature constant in the heating system. Figures 1&2 shows the Predrier Cylinders. Figure 3 shows the Predrier Cylinders on the top of existing stenter machine in industry.

Machine Location
The drying unit do not occupied space on floor but is placed on the top about 1.5meter of the existing washing or penetrating bath of the stenter by the help of cast iron pillar. Additional steam, electricity and air connection are connected to run the drying unit smoothly. All surfaces are made of stainless steel to withstand corrosion of steam and moisture.

Conclusion
It is seen from the research that the implementation of predrier in stenter has remarkable technical, financial improvements for textile industries. Industries or machine manufacturers should redesign stenter including predrying unit to enhance productivity of stenter. There are hundreds of knit composite mills in Bangladesh and around the world where stenters are used. The introduction of predrier in stenter increase the production of existing machine about minimum 25% successfully. It takes back the investment price within maximum 6 months whereas life time of the unit is at least ten years.