Information about clothes
Contents
Usage of energy in laundries
In laundries, energy is necessary to generate process heat (steam, hot water). Energy sources are gas, electricity and fuel oil (extra light) and fuel oil (heavy: S). gas and electricity are used for
- direct machine heating as well as for
- indirect application to heat transfer media
Heavy fuel oil is normally applied in industrial plants only due to complex legal requirements for its application
The following processes require process heat:
- washing
- drying
- calendering
- ironing, pressing, finishing
Distribution of energy in laundries
Energy sources in laundries
High pressure steam:
Steam pressure > 1,0 bar, usually: 8 -12 bar (above atmospheric pressure), temperatures: 175 - 191 °C
Steam characteristics
- high heat capacity
- excellent transfer capacity
- constant efficiency at max. power
Application technology
+ direct steam flow (washing and steam process, therefore short heating up of heating washing liquor)
+ high efficiency (economic)
+ reserve at high peaks of consumption (big boiler)
- high acquisition costs
- inspection by legislation required
Low pressure steam:
Steam pressure 0,5 - 1,0 bar, usually: 0,5 bar (above atmospheric pressure), temperatures: max. 120 °C
Steam characteristics
- high heat capacity
- excellent transfer capacity
Application technology
+ short heating up intervals
+ simple handling and maintenance
+ low acquisition costs
+ no legal requirement of inspection (TÜV),registration of boiler only
- temperature max. 120 ºC, therefore inapplicable for mangles, tumblers, presses etc.
Heat supply in small laundries
Local supply (heating)
- Individual heating of each machine
- for laundries at a capacity of up to 500 kg textiles/day
- Gas or electricity (prerequisite: local favourable fees)
- Advantage of individual heating: flexible usage of resources dependent on amount of textiles
- Economical: no higher use of energy than required
- Efficient and environmentally friendly
Heat supply in industrial laundries
Central supply
- for laundries at a capacity of more than 500 kg laundry
- most important medium is steam, sometimes hot water or thermal oil
- Advantage: distribution of heating medium constantly possible as well as the possibility of direct heating of the washing liquor
- Performance of steam generator is very important
- At high utilization, all machines may require heating energy at same time -> boiler should be capable to supply all machines with enough steam,even at high production peaks
Measures to reduce energy consumption
Organisational measures: concerning work processes
- Sorting of textiles: cotton, linen, coloureds, wool
- Intelligent combination of washing programmes: Temperatures/energy demand for heating, time for the washing cycles, time for loading and unloading,
- Avoid overload (check weight), high rejects require another washing cycle
- Work processes shall be organized in a way that steam generator can deliver constantly
- Steam consumption shall be continuously all over the day
- Avoidance of “steam spikes” = shifted start of machines
Technical measures: can be influenced at the laundry (e.g. washing program)
The Sinner's Circle describes the main influences of the washing process. Temperature is related to thermal energy demand.
Temperature reduction can be compensated by
- Low temperature washing (more chemistry, more mechanics)
- Reduction of liquor ratio (higher mechanics)
- Optimization of washing times (prolonged time)
Optimization of steam generation
- High efficiency (constantly monitoring of CO2 – concentration)
- Optimal burner-adjustment (soiled heating surfaces decrease heating efficiency)
- Thorough deaeration of heat exchangers
- Functionality check of all steam traps
- Re-usage of condensate
- Installation free from leakages
- Isolation of steam pipes (to avoid waste heat)
Application of low-pressure steam (2 to 4 bars)
- Economical more efficiently than high-pressure steam (10 to 16 bars)
- Application possible for heating of water for steam for finisher process only
- BUT: Mangling and drying require high-pressure steam or gas
Waste heat recovery by heat exchangers:
- waste water of the washing process
- waste water of the drying process
- waste water of the finishing process
Technological measures: concerning the construction of machinery (e.g. dryer)
Active environmental protection:
Optimize energy consumption by
- Burner optimization
- Use of adapted burners
- Reduced washing temperatures
- Optimized washing mechanics (without negative influence on washing performance as well as life cycle of textiles!)
Passive environmental protection:
Reduce energy consumption by
- Technical measures to reduce energy consumption
- Application of heat exchangers to reduce temperature of effluent water