Scope of Energy Saving in Textile Industry

Scope of Energy saving in textile mills of Punjab By J.N.Vohra B.Text, M.Tech, F.I.E., C.Eng (I), L.M.I.M.A. Coordinator-NITMA, Punjab

Types of energy used in the textile industry „

Electricity: As power source for machinery, Lighting, AirCompressing, and Air-Conditioning or Cooling

„

Fuel: For generating steam in Boilers for heating water, dye fixation, fabric drying, and temperature control systems

Energy Sources in Punjab „

Electricity: Hydro-Power, Thermal

„

Fuel: Coal, Rice Husk, Fuel Oil, Wood

Energy Consumption Pattern in Punjab Textile Mills Auxillary 5%

Spinning 35%

Dyeing 40% Weaving 20%

Whereas, power dominates consumption pattern in spinning/weaving, while thermal energy, requiring use of fuel, is major for dyeing & finishing, for heating and drying of the water used.

Energy Saved = 2 x Energy Produced

„

Energy efficiency usually refers to … Reduction

in the energy usage for a given

service … Avoiding unnecessary consumption of energy

Shares of energy consumption and cost in various textile sectors of Mauritious (An Example)

Textile Sectors

Electrical energy, Total energy (KWh/kg) cost, $/kg

Spinning

3.60-3.80

0.19-0.20

Weaving

2.00-2.20

0.12-0.13

Dyeing & Finish

1.60-1.70

0.30-0.45

Knitting

0.30-0.40

0.02

Clothing Manufacture.

0.80-1.00

0.07-0.12

The wet processing of textiles consumes only a small portion of electrical energy, say around 16% of total electrical energy, mainly for running the various processing machinery's.

For “rational use of energy” „

General management techniques and „ Process-specific techniques

General Management Techniques ……to improve the efficiency of electricity use (Small Measures)

„ „ „ „

Use Electricity-saving fluorescent lamps or economical florescent tubes. Ensure correct shape of the reflective fitting Colour of the interior finish of the room should be bright Distance from the light source is important

Project Examined Technologies For effective use of steam „

„ „

„

„

Useing appropriate heat insulating materials for steam piping Reduces steam leakages and consumption Using smaller distances for steam transportation Using pressure reducing valves to regulate the steam pressure at the point of use Optimizing of boiler air/fuel ratio and operating pressure Useing demineralised water in boilers

BEE Sponsored project 9

Project Examined Technologies Energy Management System „ „ „ „

Recovering of cooling water and heat recovery from hot/waste Recovering of condensate Useing of measuring instruments and automatic controls, Useing of heat exchangers and recovery systems BEE Sponsored project

Water usage in Textile Industry „

Major water uses in the textile industry may include:

washing/rinsing, scouring, dyeing and bleaching.

Values are indicative only and will vary from site to site.

Water saving benefits

„ „

There are significant benefits that can be realised through becoming more water efficient. These include reductions in costs in: Wastewater discharge; treatment and disposal Reduction in Energy consumption for heating

Savings due to efficient compressed air management in Punjab Mills (NITMA Sponsored Study) Project cost (Rs. Lakhs)

Potential Power Savings in units/day

Potential Power Savings in Units per Annum

Potential carbon emissions in tons/annum

Savings in Rs Lakhs/an num

1

5.25

750

270000.00

4.50

10.8

2

7.48

1750

630000.00

10.50

25.2

3

8.91

2100

756000.00

12.60

30.24

4

7.55

1750

630000.00

10.50

25.2

5

3.24

400

144000.00

2.40

5.76

6

26.86

7000

2520000.00

42.02

100.8

7

5.25

750

270000.00

4.50

10.8

8

5.25

750

270000.00

4.50

10.8

15250

5490000

91.53

219.6

Units

Net Reduction Scope = 1.2 MW and Rs. 219.6 Lakhs/annum

The Energy use and Technology audit studies

- Solapur Textile Cluster” in 51 units By Zenith Energy Services (P) Limited, Hyderabad Sponsored by Bureau of Energy Efficiency (BEE)., New Delhi.

„ „ „ „

600 Total Textile industries 350 units are of integrated 250 units have manual dyeing and 100 units has mechanical dyeing facility

Energy Scenario In Solapur Textile Cluster „

Energy cost: 6 to 8% of the total production cost and varies as per the products manufactured.

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Main energy forms: electricity and wood.

„

Energy consumption: 60 to 65% thermal energy & 35 to 40% electrical energy

Total: 16,647 TOE (tons of oil equivalent)

15

Recommended use of the Solar Hot Water System •

The solar energy is a renewable energy source and is available abundantly

•

The Solar Hot water system doesn’t require any fuel

•

The SHW system uses clean form of energy and doesn’t emit toxic gases and protects environment

•

Subsidy from the central government, if loan is not taken from the financial institution, up-to 20% of total cost BEE Sponsored project

16

Installation of Economizer in Boilers •

Utilizes heat available in waste flue gases and hence no fuel is required

•

Hot water generated can be directly used for the process, hence reduction in processing time

•

Low investment and high returns

BEE Sponsored project 17

Replace the old Boilers with Energy Efficient Boilers

BEE Sponsored project 18

Benefits „ „ „

Reduces fuel consumption and faster generation of steam Reduces GHG emissions Improves working environment for workers due to reduction in radiation losses and flue gas temperatures

19

Cost Benefit Analysis Energy Conservation Measures

Monetary Savings Simple Payback (Rs.Lakh) Period (in years

Total Saving Potential of the cluster (Rs.Lakh)

Solar Hot Water System

0.60

3.3

90.00

Economizers (for boilers)

0.30

1.7

16.50

Heat recovery from hot drained water

0.50

_

50.00

Energy Scenario In Surat Textile Cluster in 75 Units By Zenith Energy Services (P) Limited, Hyderabad Sponsored by Bureau of Energy Efficiency (BEE)., New Delhi.

„ „ „

400 Total Textile industries 330 units are of integrated 70 units has dyeing facility

Energy Scenario in Surat Textile Cluster „

Energy cost: 12 to 15% of the total production cost and varies as per the products manufactured

„

Main energy forms: Electricity ,Coal, Natural gas and Biomass .

„

Energy consumption: 60 to 65% thermal energy & 35 to 40% electrical energy Total: 12, 89,039 TOE

Recommended Steam based cogeneration system Schematic Diagram Of Proposed Cogeneration Scheme Boiler High pressure Steam

TURBINE

Low pressure Exhaust Steam

~

POWER

To Process CO-GENERATION

BEE Sponsored project 23

Cost benefit analysis = 500 kW „ = 400 kWh „ = 5500 kg „ = 760 kg „ = Rs.2660 „ = Rs.2660 „ = Rs. (4910 – 2660) = Rs.2250 Monetary/annum = Rs.78.70 Lakh Capital invested for co-generation plant = Rs.350.00 Lakh Simple payback period = 4.4 years „

Capacity of the co-generation plant No. of units generated/hr Steam generation Coal consumption Coal cost (Rs.3.50/kg) Total fuel cost Monetary savings/hr

BEE Sponsored project 24

Recommended to Generate hot water from hot drained water (heat exchangers) of Jet Machines

BEE Sponsored project 25

Cost benefit analysis Days of operation per annum „ Quantity of hot water drained „ Average quantity per day for conservative purpose (80%) „ Temperature of hot drain water „ Quantity of heat can be recovered „ Boiler efficiency „ Calorific value of fuel „ Fuel savings „ Fuel cost Savings per annum Investment for tank, heat exchanger and distribution system Payback period „

350 Days 85,000 liters/day 68,000 liters/day 90o C 27,20,000 kcal/day 51% 5800 kcal/kg 292 tons/annum Rs. 3,500 per ton Rs. 10.22 Lakh Rs.6.00 Lakh 6 Months BEE Sponsored project 26

There is Scope of Energy Saving in Dyeing & Finishing Operation in Textile Mills of Punjab

Thank You

Save energy, save environment for future generation