AIR CONDITIONING IN TEXTILE MILLS – A PRE-REQUISITE

                                                  Dr. G. Nagarajan, Texcoms Textile Solutions Coimbatore.

Abstract

Maintaining appropriate relative humidity and temperature inside the department is essential for satisfactory working performance in the textile industry. In addition, the comfort of the personnel working inside the department is equally important for enhancing efficiency. The modern concept in textile industries is the adoption of Air Engineering. Air Engineering not only controls the relative humidity but also assists in the removal of waste from the machinery to the Centralized Waste Evacuation System (CWES). This ensures a dust-free working atmosphere in the department with acceptable breathable dust. (50µm)

• Introduction,

In today’s rapidly growing environment and the stringent requirements required to be maintained in the textile industries, maintaining proper relative humidity and temperature is of paramount importance. Many suppliers are providing the humidification plants with their improved design concepts in air washers, dampers, filters etc. for better working environments in the textile mills.  Essentially textile air engineering fulfils two main objectives. First, it makes an important contribution to increasing the productivity and quality of processing natural and synthetic fibres.  Second, improving the hygienic working conditions for the personnel working in the textile plant. There are three major areas in air engineering, namely, air conditioning, pneumatic machinery cleaning as well as filtration and waste removal. Textile air Engineering was specially developed for the industry demand and manifold requirement of the textile industry. Pneumatic machine cleaning consists of appliances, which through aerodynamic effect collect, extract and separate waste, dust, fibres heat, vapour and exhaust gases. These appliances form an integral part of Air Engineering or can be used as accessories. Filtration and waste removal eliminate the impurities and loose fibres that are released in the production department. Before the development, the wastes were removed manually, however, at present it is fully automated thus satisfying the stringent regulations laid by OSHA standards. The integration of these three fields into a comprehensive system is designated as TAC (Total Air Cleaning and Control). 

2.0. Air Conditioning

The threefold functions of an industrial air conditioning system are:

• To provide the required levels of relative humidity (RH) required for optimal working conditions in the department. 
• To provide a specified dry bulb temperature for the comfort of the personnel inside the department
• To circulate enough air by removing the heat load generated inside and infiltration from outside as well. 

The required air circulation in CFM cubic foot per minute) is calculated by

 CFM =                        Heat load B.T.U./hour

                                      1.08 x (Inside Dry bulb temp – Outside dry bulb temp) ÷ F

3.0. Importance of Air Conditioning

Humidity

Maintaining a proper relative humidity level is essential for the smooth operation of the machines and processes. Moisture reduces the formation of static electricity while processing synthetic fibres and blends. However, on the other hand, higher humidity increases the chances of roller lapping and also reduces the degree of opening in disentangling the fibres. Furthermore, the breaking force and elongation are directly influenced by the ambient relative humidity conditions in the department. Optimum values depend upon the type of raw material used for the yarn production. A higher relative humidity will result in a lower room temperature during the evaporative cooling process. 

Temperature

In general, temperature fluctuations vary from place to place depending on the geographical location of the textile plant. Some processes are temperature sensitive such as weaving. However, all processes require a constant temperature, as most natural fibres are hydrophilic and hence the moisture-absorbing capacity changes with temperature. In addition, reducing count variation in textile mills, and controlling temperature has a positive effect on fibre fly, fewer electronic components failures, better working environment. In summer and monsoon seasons, daily room temperature fluctuations can be minimized by using refrigerant cooling instead of evaporative cooling method.

Fibre Recovery and Handling

Most of the modern textile spinning machines have integrated suction points that can be integrated into a centralized fibre deposit system. The fibre separation and dust filtration plant must be designed in such a way that it should be capable of handling the required volume and pressure and also the amount of waste fibre. Based on the raw material used, fibre separators are installed to separate the fibre mixtures. 

Modern air engineering plants are integrated with a bale press system to collect the waste briquettes which reduces the personnel intervention and increases the efficiency of the bale press. 

Clean Working Atmosphere

To control the fibre fly/dust contamination and dust infiltration into the department, the factory is kept at constant overpressure. Based on the pot side air contamination, fresh air filters and depending on the process requirements, supply air filters are required. This is very important to maintain Permissible Exposure Limits (PEL) to protect the health of the personnel from byssinosis. 

4.0. Components of Humidification System

Most of the humidification plants supplied by various manufacturers have

1. Air washers
2. Spray piping
3. Water eliminators
4. Inlet louvers
5. Rotary air filter
6. Dampers
7. Axial flow fans
8. Automatic control system

Air Washer System

 Air washer systems are designed considering all the heat load in the department and require RH to be maintained in the department. The supply and return air system is designed based on the heat load in the department. It is designed in such a way that the whole department is maintained at positive pressure for better elimination of fibre flies and dust from the department. The return air supply is designed with return air grills and slit openings to maintain specific negative pressure thus necessitating a clean working environment and also the removal of heat from the motors effectively as well. Air washer efficiency should be around 80% for effective working conditions.

Spray Piping Or Nozzles

The spray piping or nozzles should be corrosion-free, and leakage-free with extra heavy-duty PVC piping and a non-clog polycarbonate nozzle. Nozzles should give fine hollow spray with a wide angle.  

Water Eliminator

The eliminators are designed in such a way that they provide fine water droplets inside the department instead of water droplets in the form of rain. This would cause difficulties in working and also damage the machine’s condition as well. Various range of water eliminators are available with PVC fins which offers less resistance to air flow besides being light and durable. The eliminators should have reduced pressure drop, low maintenance cost, less capital investment with longer working life.

Inlet Louvers

The PVC louvers are PVC hollow “Z” type which sucks the air and forms an air current equally all over the width of the air washer and thus helps to achieve more saturation efficiency.

Rotary Air filter

Rotary air filters have rotating drums made of steel grid mesh with suitable mounting frames driven by a separate geared motor suitable to provide a large filtration area. The air laden with fibre and dust collected on the drum is arrested on the surface of the filter media covering the rotating drum and it is sucked by a suction nozzle arrangement with to & fro motion connected to a flexible hose arrangement. This arrangement continuously cleans the fluff and dust collected on the filter media and collects in a separate waste collection bag. The suction fan with the collection unit is housed in a separate room next to the filter room.

Low-pressure drop is maintained due to the high-pressure cyclone fan working effectively not only to remove the fluff collected on the filter surface media but also dust getting arrested in the filter pores. This provides uniform return airflow at high pressure to continuously remove fluff and dust from the department to maintain a clean working atmosphere.

Axial Flow Fans

The main component that accounts for more power consumption in an air conditioning system is Axial flow fans. It accounts for about 55% and 75% of spinning and weaving units respectively of the total electrical energy consumed.  The latest generation fan blades are made of very light and high-strength “Hybrid Long fibre compound” material. These fans have wider operating ranges, improved aerodynamics and efficiency and lower stresses during continuous operation.  

Automatic Control System

Automatic control systems ensure proper RH and temperature with extremely sensitive dry bulb and wet bulb temperature sensors. Temperature is controlled by opening and closing of fresh air, return air and exhaust air dampers automatically with the help of actuators. Humidity can be controlled by using bypass dampers. It means that a central monitoring system ensures proper control of RH inside the department round the clock with the computer.

5.0. Refrigeration system

In general, during cold weather periods, there is no problem providing the conditioned air to the production areas with adequate conditioned air and maintaining the temperatures for both men and machines. However, during the peak summer seasons, the outside temperature exceeds the dew point temperature which corresponds to the maximum permissible room temperature of 28÷C. 

The air conditioning plants therefore have to be supplied with chilled water constantly, which after being heated up, is then returned to the refrigeration plant where it is cooled down by two centrifugal liquid chillers. The heat which is removed from the production areas through the chilled water circuit, is then transferred to the cooling water circuit. The heat removed is then blown away to the atmosphere through cooling towers. 

6.0. Conclusion

The effective utilization of men, machines and raw materials depends on many factors like process optimization on machines, speeds etc. Nevertheless, the importance of maintaining proper relative humidity and temperature has also to be considered for achieving maximum efficiency with an acceptable output product. For a clean process, an air conditioning plant has an advantage over a simple ventilation system like automatic control of RH, automatic removal of waste from the machines and handling of those waste materials in a centralized waste evacuation plant. However, the installation of a chiller plant is quite expensive as a humidification plant consumes 15 to 20% of the overall power cost which has to be borne in mind. 

References

1. Jones M.C., Air Conditioning – Journal of Textile Institute Proceedings 46:8, P 470 to P 490. 1964.
2. Luwa Ltd, Zurich, Swizz, Air Conditioning – Asian Textile Journal, May 1993