ENERGY CONTROL
Energy audit is a preliminary activity towards instituting the energy control programs in an establishment. Energy audit increases awareness of energy related issues among plant personnel, making them more knowledgeable about proper practices that leads to cost reduction. A medium scale spinning mill at Coimbatore has been selected for the study and energy audit has been carried out in a most systematic way. Energy audit has revealed some important factors that affect the efficiency of motors, materials and energy balance and specific energy consumption at various level in that mill. The necessity of an information system for better energy conservation practice is one of the important findings of this work. This paper presents the possible methods of energy conservation that have been identified the spinning open lion, humidification and lighting, of a spinning mill.
The implementation of energy conservation programmes in spinning mills have gained wide acceptance in the background of the rising cost of commercial energy. The three major factors for energy conservation are high capacity utilization, fine tuning of equipment and technology upgradation. This paper concentrates on the application of these three concepts to a spinning mill,
The methodology adopted for conducting the detailed energy audit is:
¨ Basic data collecting on (i) list of power consuming equipment, (ii) production capacities of the major equipment and (iii) operating parameters.
¨ Measurement of operating parameters of various equipments to estimate their operating efficiency.
¨ Analysis of data collected to develop specific energy saving proposals.
· Presentation on the findings of the detailed energy audit. DESCRIPTION OF THE PLANT
The spinning mill considered for the study comes under medium scale category. Some important details of the mill are:
· Yarn manufacturing is carried out using state-cf-art textile equipment.
· Daily spinning capacity is 10 000 kg of yarn and number of spindles are 45 072.
· The mill operates continuously throughout the year.
· Major energy sources are electricity and high speed diesel (11513).
· Yarn manufacturing is carried out using state-cf-art textile equipment.
· Daily spinning capacity is 10 000 kg of yarn and number of spindles are 45 072.
· The mill operates continuously throughout the year.
· Major energy sources are electricity and high speed diesel (11513).
Generator power production is not separated and the calculations are done on units of energy consumed.
· Contract demand with Tarnilnadu Electricity Board is for 1800 kVA per month.
Major Consumption Points
· Ring frames
· Humidification plant
¨ Winding
¨ Carding
¨ Blow room
¨ Heating lamps
¨ Lighting· Classification of machines was carried out from the power rating of the load and type of load for which they are used.
· Information about the machines collected includes method of power transmission, loading sequence, sources of energy wastage and method of control.
· Energy against power rated data was used for the selection of machines for detailed energy audit.
· To identify the methods for energy conservation, following points were considered.
(i) alternate to reduce/avoid energy losses
(ii) alternate to reduce down time
(iii) alternate to optimum selection
Necessity of an Information System for Better Energy Conservation Practices
Energy cost is one of the largest component of conversion cost incurred by the spinning mill. At present, energy related data are collected manually in the spinning mills which involves considerable amount of lime, cost and possible inaccuracies. Online information, on the other hand. provides quick, continuous and accurate results, which will be very much useful in decision making.
· Contract demand with Tarnilnadu Electricity Board is for 1800 kVA per month.
Major Consumption Points
· Ring frames
· Humidification plant
¨ Winding
¨ Carding
¨ Blow room
¨ Heating lamps
¨ Lighting· Classification of machines was carried out from the power rating of the load and type of load for which they are used.
· Information about the machines collected includes method of power transmission, loading sequence, sources of energy wastage and method of control.
· Energy against power rated data was used for the selection of machines for detailed energy audit.
· To identify the methods for energy conservation, following points were considered.
(i) alternate to reduce/avoid energy losses
(ii) alternate to reduce down time
(iii) alternate to optimum selection
Necessity of an Information System for Better Energy Conservation Practices
Energy cost is one of the largest component of conversion cost incurred by the spinning mill. At present, energy related data are collected manually in the spinning mills which involves considerable amount of lime, cost and possible inaccuracies. Online information, on the other hand. provides quick, continuous and accurate results, which will be very much useful in decision making.
DATA ANALYSIS AND RECOMMENDATIONS
Power consumption pattern in the spinning mill is shown in Figure 3.
It shows that spinning is the major power consuming operation and uses 44.83% of total energy. The second largest use of energy (12.67%) is in humidification plant. The heating lamps use 9.54% of the total energy. Carding uses 7.44% of total energy and the share of the winding section is 6.21% of total energy. Drawing, simplex, doubling, lighting and other operations use the remaining energy.
The material and energy used in the spinning mill is shown in Figure 5 and Figure 6. Considerable amount of energy saving can he done by the reuse of these waste materials. Such usage conserves both energy and resources by reducing the need for buying new raw material and associated processing and transport cost.
Specific energy consumption and cost fore= each energy consuming given in Table 3 which shows that ring frames use IA852 units Of electric energy per kilogram. ilia second largest consumer of electric energy is carding with a specific energy cons umption of 0.2088. Specific energy consumption of blow room is Q.1408.
Spindle of ring frames consumes 45% of power. Many manufac? turers have nowadays developed energy saving spindles having less weight and small wharf diameter. IL was observed that 10%.
Automatic Star-delta Connector (ASDC)
When three-phase motor has a star-delta starter, ASDC is fitted to sense the load current and if it is below set value, delta connection of phases is switched back to star. Thus, the phase voltage changes is from 415 V to 230 V. The magnetizing current reduces at lower load and PF is improved leading to energy saving
When three-phase motor has a star-delta starter, ASDC is fitted to sense the load current and if it is below set value, delta connection of phases is switched back to star. Thus, the phase voltage changes is from 415 V to 230 V. The magnetizing current reduces at lower load and PF is improved leading to energy saving
The use of soft start corn energy saver helps to save energy in the following ways.
· continuously senses the load
¨ applies voltage automatically in accordance with load factor
· supplies energy needed to perform work
· provides smooth accelerating facilities
A proposal was given to install soft start cum energy saver for the motors in the identified simplex machines.
Yarn production results in a variety of waste materials and the wastage reduction proposals suggested for this mill are:
· Good material handling practices.
¨ Educating the workers on the impact of waste on energy (the price of yarn and waste).
¨ Demonstration to the workers about waste saving methods7.
0 comments:
Post a Comment