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Module 6 “special aspects” Chapter 6 “combination of…” 11
Sustainability
in commercial laundering processes
Module 6 special aspects
Chapter 3 a
Combination of different systems to treat waste water and heat
Leonardo da Vinci Project
Module 6 “special aspects” Chapter 6 “combination of…”
Content
� Biological treatment systematic
� Rotating discs reactor
- Application
- Special features
- Functionality
- Case Study (St. Joris)
This chapter is a contribution of ECOLAB
Module 6 “special aspects” Chapter 6 “combination of…”
Learning targets
After finishing this chapter you will
� Have an overview of biological treatment systematic and be able to explain
� Know the applications of a rotating discs reactor
� Know and be able to explain the functionality of a rotating discs reactor
Module 6 “special aspects” Chapter 6 “combination of…”
Biological Treatment Systematic
Sessile Biomass
on base material
Irregular
moved
• Fluidized Bed
• Circulating Bed
Bio-
Rotor
• Rotating Contactor
• Rotating Biological Disc
���� AQUA ROTO RAQUA ROTO RAQUA ROTO RAQUA ROTO R
Combined
Procedures
Activated
Sludge
Tank
• Circular Basin
• Longitudinal Basin
• Carrousel Construction
• Aeration Towers
Semi-Batch
Reactors
Free Floating
Biomass
Fixed
Bed
• Biological Filter
• Percolating Filter
Module 6 “special aspects” Chapter 6 “combination of…”
A Biological Treatment Unit to Reduce COD and BOD Values and to Fulfil legal Requirements
Module 6 “special aspects” Chapter 6 “combination of…”
� Biological cleaning of industrial effluent - polluted with organic ingredients from
- Food industry
- Pharmaceutical industry
- Car industry
- Textile industry
- Professional laundries
Applications
Suitable for
treatment of effluent
from most laundry
classifications
!
Module 6 “special aspects” Chapter 6 “combination of…”
AQUAROTOR Compact Unit Installation
... Inside a building
... Outside
Module 6 “special aspects” Chapter 6 “combination of…”
AQUAROTOR - Applications
� Reduction of BOD and COD values in laundry effluent
- BOD removal ratio: up to 98%
- COD removal ratio: up to 85%
� Avoid additional costs for heavily soiled effluent
� Compliance to the regulations for discharging effluent
� Optional: Re-use after treatment
Module 6 “special aspects” Chapter 6 “combination of…”
AQUAROTOR - Special features
� Reduction of COD and BOD values in combination with water recycling
� Simple, rigid andhighly durable construction
� Lowest running costs compared to alternative systems
� Low maintenance requirements
� High tolerance to waste water load fluctuations
� Modular construction - small space requirements
Module 6 “special aspects” Chapter 6 “combination of…”
AQUAROTOR - Functionality
� The rotary disc unit is rotated within the water tank at low speed
� Several hundredhighly durable, polypropylene discs are turned repeatedlywithin the tank between the water and air. The effluent in the water tank flows through the unit while making contact with the disc surfaces
Functional drawing
Module 6 “special aspects” Chapter 6 “combination of…”
AQUAROTOR - Functionality
� The biological film of microbes formed on the surface of the discs respires oxygen while rotations though the air. While diving through the waste water the organic materials are absorbed and decomposed by the microorganism
� High density of biological material on the surface of the discs and the construction in several cascades, makes biodegrade that efficient
Module 6 “special aspects” Chapter 6 “combination of…”
AQUAROTOR – Case Study St. Joris
� Healthcare laundry in Belgium with daily production of max. 20 tons/day
� Maximum water intake was capped at 200 m³/day
� No connection to the municipal sewage plant
� Ecolab installed a system in order to meet the discharge limits and to save water and energy
� Plant in operation since 09/2000
� Several water samples were taken from influent, after first cascade and from effluent
Module 6 “special aspects” Chapter 6 “combination of…”
AQUAROTOR – Flow diagram St. Joris
Module 6 “special aspects” Chapter 6 “combination of…”
AQUAROTOR - Evaluation at St. Joris
Aquarotor St. Joris: Decomposition of Organical Material
(Data from 2002)
0,0
10,0
20,0
30,0
40,0
50,0
60,0
70,0
80,0
90,0
100,0
25.12.2001 13.02.2002 04.04.2002 24.05.2002 13.07.2002 01.09.2002 21.10.2002 10.12.2002 29.01.2003
Date
De
co
mp
os
itio
n [
%]
TOC-Abbau CSB-Abbau BSB5-Abbau
Module 6 “special aspects” Chapter 6 “combination of…”
waste water in
1st Module 2nd Module
waste
water
out
BiofilmBiofilm
Module 6 “special aspects” Chapter 6 “combination of…”
Daphnia test
Algae growth
Inhibition test
Microtox test
C.O.D.
B.O.D. 5
Anionic Surfat.
Non-ionic Surfact.
Suspended solids
Total Hydrocarbon
1210 mg/l
730 mg/l
12,63 mg/l
110 mg/l
312 mg/l
1,41 mg/l
25 équitox/m3
84,03 UTM
2,67 équitox/m3
685 mg/l
200 mg/l
9,51 mg/l
23 mg/l
187 mg/l
0,93 mg/l
3,7 équitox/m3
4,73 UTM
1,93 équitox/m3
- 43%
-73%
-25%
-79%
-40%
-34%
-85%
-94%
-28%
- 42%
-64%
-35%
-69%
-60%
-77%
-70%
-72%
-44%
394 mg/l
71 mg/l
6,22 mg/l
7,2 mg/l
75 mg/l
0,21 mg/l
1,11 équitox/m3
< 1,33 UTM
1,08 équitox/m3
- 67%
-90%
-51%
-93%
-76%
-85%
-96%
-98%
-60%
Reduction of waste water load
Module 6 “special aspects” Chapter 6 “combination of…”
Energy Optimiser®
heat exchanger
� Specially designed for difficult waste water conditions in professional laundries- No down time due to
blocked heat exchanger
� Self-cleaning unit- Rotating heat exchange element
- No down time for cleaning
� Specially treated surface- No fouling
- Meets hygienic requirements