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LOW GRADE WHU POTENTIAL- TEXTILE SECTOR

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LOW GRADE WHU POTENTIAL- TEXTILE SECTOR Partnership to Advance Clean Energy-Deployment (PACE-D) Technical Assistance Program 12-Aug-14 R Rajmohan – PowerPoint PPT presentation

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Title: LOW GRADE WHU POTENTIAL- TEXTILE SECTOR


1
LOW GRADE WHU POTENTIAL- TEXTILE SECTOR
Partnership to Advance Clean Energy-Deployment
(PACE-D)Technical Assistance Program
12-Aug-14
R Rajmohan
2
CONTENTS
  • Process Flow
  • Sources of Low Grade Waste Heat
  • Overall Potential
  • WHU Solutions
  • Case Studies

3
Textile Processing Illustrative for Cotton
Prints
Process
Utilities
Boiler
Thermopac
Air compressors
Source Cluster Manual Pali Textile Cluster BEE
4
Textile Processing Pali Textile cluster- Quick
overview
Sl No Item Target Efficiency
1 Sources of Energy Electricity from Grid Pet Coke
2 Energy Use pattern Pet Coke 5 to 7 TPD (Power process) 1 to 1.5 TPD (Small Units)
3 Energy Use pattern- Electricity Power Process 3000 kWh/Day Only printing 160-500 kWh/Day
4 Specific energy consumption ( Processing of polyester Printing) Electricity 1.2 kWh/Kg Thermal 15000 Kcals/Kg
Source Cluster Manual Pali Textile Cluster BEE
5
Sources of Waste Heat
Fuel Steam (LP) 3 bar
Boiler
Flue gas Blow Down
6
Low Grade WH Overall Potential
Effluents Quantity 3000 Kg/Cycle Temperature 70
Deg C WHR potential 120000 Kcals/Cycle
Jiggering Swing Steam Reject condensate 120
Kg/Hr Temperature 70 Deg C WHR potential 6300
Kcals/Cycle
Dyeing _at_ 140 Deg C Reject effluent 5000
Kg/Hr Temperature 100 Deg C WHR potential
408000 Kcals/Cycle
Stretching _at_ 120 Deg C Reject Effluent 123
Kg/Hr Temperature 100 Deg C WHR potential 1230
Kcals/Cycle
WHU- Overall potential 0.323 Kg of Fuel/Kg of
Cloth Annual fuel savings 93 MT/Year Cost
savings 11.2 Lac Rs/Year
Drying Jiggering Steam Reject Effluent 200
Kg/Hr Temperature 70 Deg C WHR potential 12000
Kcals/Cycle
Drying Jiggering water Reject condensate 3500
Kg/Hr Temperature 70 Deg C WHR potential
210000 Kcals/Cycle
Mill producing 37 Kg of cloth/Hr
7
Low Grade WHU Technologies Waste heat recovery
from Boiler Flue gases - Economizer
  • Waste heat recovery device
  • Usually used in boilers to recover waste heat
    from flue gases.
  • Recovered heat is used to pre-heat feed water to
    boiler
  • Useful where water feeding to boiler is continuous

8
Low Grade WHU Technologies Waste heat recovery
from Boiler/Thermopac Flue gases Air Preheater
  • Waste heat recovery device
  • Usually used in boilers/Furnaces to recover waste
    heat from flue gases.
  • Recovered heat is used to pre-heat combustion air
    to boiler/Furnace
  • Useful where Economizer exists already

9
Low Grade WHU Technologies Waste heat recovery
from Boiler Flue gases Water Preheater (ST
heat exchanger)
  • Waste heat recovery device
  • Usually used in boilers to recover waste heat
    from flue gases.
  • Recovered heat is used to pre-heat boiler feed
    water
  • Useful when the feed water flow to the boiler is
    not continuous

10
Low Grade WHU Technologies Waste heat recovery
from Boiler Flue gases Water Preheater- Heat
pipe heat exchanger
  • Waste heat recovery device
  • Usually used in boilers to recover waste heat
    from flue gases.
  • Recovered heat is used to pre-heat feed water to
    boiler
  • Useful to recover heat where Delta T is lower

11
Low Grade WHU Technologies WHR from Boiler Blow
Down Flash Steam Recovery Heat recovery from
BD condensate
  • Flash steam recovery from Boiler blow down
  • Heat recovery from the condensate of the blow
    down
  • Recovered heat is used to pre-heat Boiler feed
    water/ other hot water requirements

12
Low Grade WHU Technologies Condensate Recovery
  • Condensate recovery device
  • No mechanical pumping
  • Recovered condensate is used as boiler feed water
  • Savings of both water and heat

13
Low Grade WHU Technologies Heat Recovery from
Hot effluents
  • Waste heat recovery device
  • Used to recover heat from process effluents

14
Low Grade WHU Technologies Heat Recovery from
Hot Vapours
  • Hot vapors from sources like Stenters are the
    heat source
  • Used to either generate hot water or to heat the
    fresh air to the source equipments

15
CASE STUDY 1 Waste heat recovery system in
Boiler
16
CASE STUDY 2 Waste heat recovery system in
Thermopac
17
CASE STUDY 3 Waste heat recovery Boiler
Blowdown
18
CASE STUDY 4 Waste heat recovery- Jet Dyeing
Machine
19
CASE STUDY 5 PHE Heat Recovery from Jet
Dyeing Machine (Sameer Synthetics)
Temp. of water drained 85oC Proposal Collect
hot water and use for pre-heating cold water
stream used for process
20
CASE STUDY 2 Cost Benefit Analysis

Number of Machines in Operation 9
Quantity of Water Drained/Batch/Machine 400 l
Number of batches/day/machine 10
Water temperature at outlet of machine 80oC
Expected temperature of effluent at outlet of PHE 38oC
Expected energy savings 1,512,000 kCal/day
Equivalent Fuel Savings 189 kg/day
Equivalent Cost Savings 6.8Lakh Rs/year
Investment 4 Lakh Rs
Simple Payback Period 7 Months
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