References Belt Dryer
References
Belt Dryer
THERMAL PROCESS ENG.
SOLUTIONS
GE TREATMENT
THERMAL PLANTS
WELDING
HOLISTIC SOLUTIONS
CHEM. PROCESS ENG.
GY RECOVERY
ESS ENGINEERING
SLUDGE TREATMENT
MAL PROCESS ENG.
WELDING
AIR
HOLISTIC SOLUTIONS
CHEM. PROCESS ENG.
RONMENTAL ENERGY
ENERGY RECOVERY
Subject to technical changes. © 05/2016
PROCESS ENGINEERING
THERMAL PLANTS
TECHNOLOGY
ENVIRONMENTAL ENERGY
HOLIS
CHEM
ENERGY RECOVERY
PROCESS ENGINEERING
PRECISION
SERVICE
SLUDGE TREATMENT
ENTHUSIASM
AIR
ECONO
PARTN
THERMAL PROCESS ENG.
SOLUTIONS
ENGINEERING ARTISTRY
ENVIR
HEAT
HEAT RECOVERY
ECONOMY
SLUDGE TREATMENT
ENTHUSIASM
HEAT RECOVERY
ENTHUSIASM
HEAT
SOLUT
ENGINEERING ARTISTRY
TECHNOLOGY
ENVIRONMENT
ENGINEERING ARTISTRY
NOLOGY
THERMAL PROCESS ENG.
THERMAL PLANTS
PRECI
HEAT RECOVERY
PARTNERSHIP
SERVICE
SOLUTIONS
PARTNERSHIP
RONMENT
ENERGY RECOVERY
PROCESS ENGINEERING
PRECISION
ENVIR
HEAT RECOVERY
ECONOMY
HEAT RECOVERY
ECONOMY
HOLISTIC SOLUTIONS
CHEM. PROCESS ENG.
HEAT
HEAT RECOVERY
USIASM
TECHN
WELDING
AIR
ENTHUSIASM
ENVIRONMENTAL ENERGY
THERMAL PLANTS
ENVIRONMENT
ENGINEERING ARTISTRY
TECHNOLOGY
ENVIRONMENT
SLUDGE TREATMENT
PARTNERSHIP
SERVICE
RECOVERY
ISION
PROCESS ENGINEERING
PRECISION
THERMAL PLANTS
HOLISTIC SOLUTIONS
HEAT RECOVERY
ENGIN
ENVIRONMENTAL ENERGY
ENGINEERING ARTISTRY
NOLOGY
HOLISTIC SOLUTIONS
CHEM. PROCESS ENG.
ENERGY RECOVERY
RONMENTAL ENERGY
PROCESS ENGINEERING
THERMAL PROCESS ENG.
TIONS
THERMAL PLANTS
WELDING
STIC SOLUTIONS
HEAT RECOVERY
THERMAL PLANTS
ENGIN
TECHNOLOGY
WELDING
AIR
HOLISTIC SOLUTIONS
HEAT
ENVIRONMENTAL ENERGY
HEAT RECOVERY
ENTHUSIASM
CHEM. PROCESS ENG.
CONTENTS
ENVIRONMENTAL ENERGY
THERMAL PROCESS ENG.
ENVIRONMENT
HEAT
PARTN
SERVICE
SLUDGE TREATMENT
ENGINEERING ARTISTRY
TECHNOLOGY
RONMENT
PROCESS ENGINEERING
PRECISION
SOLUTIONS
PARTNERSHIP
SERVICE
ECONO
HEAT RECOVERY
ECONOMY
ISION
ENERGY RECOVERY
HEAT RECOVERY
ENTHUSIASM
HEAT
ENVIRONMENTAL ENERGY
ENERGY RECOVERY
PRECISION
SERVIC
HEAT RECOVERY
SOLUTIONS
ECONOMY
05 - 06 Sludge Drying with SÜLZLE KLEIN
M. PROCESS ENG.
07PRECISION
- 08 Christchruch (New Zealand)PROCESS ENGINEERING
SLUDGE TREATMENT
THERM
09 - 10 Georgsmarienhütte (Germany)
HEAT RECOVERY
11 - 12 Hall in Tirol (Austria)
ENVIRONMENT
PARTNERSHIP
SERVICE
13 - 14 Kaunas (Lithuania)
15 - 16 Kenosha (USA)
SOLUTIONS
OMY
17 - 18 Klaipeda (Lithuania)
THERMAL PROCESS ENG.
WELDI
AIR
19 - 20 Koblenz (Germany)
SLUDGE TREATMENT
21 -
PLANTS
22 MallersdorfTHERMAL
(Germany)
ENGINEERING ARTISTRY
HOLISTIC SOLUTIONS
23 - 24 Orzegow (Poland)
25ENVIRONMENT
- 26 Portlaoise (Ireland)
NERSHIP
TECHNOLOGY
HEAT R
ENTHUSIASM
27 - 28 Salalah (Oman)
AIR
29 - 30 Siedlce (Poland)
WELDING
HEAT
CHEM. PROCESS ENG.
31 - 32 Ufa (Russia)
NEERING ARTISTRY
33 - 34 Zywiec (Poland)
HOLISTIC SOLUTIONS
ENVIRONMENTAL ENERGY
35 - 36 Extract of our reference list Belt Dryer
ENERGY RECOVERY
SERVICE
HEAT RECOVERY
ECONOMY
SOLUTIONS
PROCESS ENGINEERING
SLUDG
PARTNERSHIP
THERMAL PROCESS ENG.
AIR
SLUDGE DRYING
WITH SÜLZLE KLEIN:
- The entire drying technology is completely made
of stainless steel to ensure a long service life.
- The smart system is very resistant to failure,
easy to operate and needs low maintenance.
- The system works at under-pressure with no
emissions because of its high quality housing.
- The system meets the ATEX-requirements
(European guidelines for explosion prevention).
In case of failure the plant is shut down
- As a result of long retention time inside the
automatically without any hazard potential.
dryer, the dried material is hygienised, almost
dust-free, easily storable and corresponds to the
US EPA Class A-standard.
- The drying technology is designed for an
automatic and continuous operation.
No observation is needed.
Chemical scrubber
Distributor
Heat recovery
- Careful cooling of the dried material by
Bunker
- The exhaust air is led through a scrubber and
integrated cooling section at the dryer outlet.
a biofilter to meet the requirements of the local
A cool granulate is important for safe storage.
exhaust air regulations.
- Very careful transportation elements for
minmal grain abrasion and dust formation.
- The design of the SÜLZLE KLEIN drying
technology and its robust construction ensure
a long service life with minimum downtime.
Biofilter
Silo
Air fans (top), two dryer lines (center), Pro-Dry® 2/4 (right)
CHRISTCHURCH (NEW ZEALAND)
Two Belt Dryer, type Pro-Dry® 2/4
ENERGY SUPPLY: HOT WATER (165 °C)
SPECIAL FEATURES:
- The required drying heat is recovered from the energy center
- The thermal energy is transferred by means of hot water at 165°C to the drying air
- Seismic design
FURTHER EQUIPMENT:
Sludge bunker, granulate storage silo with truck loading station, chemical scrubber and biofilter
TECHNICAL DATA
Sludge type
aerobic stabilized
Dryer capacity
5,900 kg/h or 44,250 t/y
Operating time
7,500 h/y
Inlet DS-concentration
approx. 20 % DS (nominal)
Outlet DS-concentration
> 90 % DS
Water evaporation capacity
2 x 2,500 kg-water/h
Amount of dried granulate
approx. 9,600 t/y
Waste air flow
approx. 2 x 25,000 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
< 350 kWh/h
Thermal energy consumption
< 3,900 kWh/h
Dimensions of the entire drying plant (LxWxH)
40.0 x 17.0 x 10.0 m
6
7
Pro-Dry® 2/2 (top), sludge layer in the dryer with sprinkler (center), biofilter (right)
GEORGSMARIENHÜTTE (GERMANY)
Belt Dryer, type Pro-Dry® 2/2
ENERGY SUPPLY: WARM WATER (75 °C)
SPECIAL FEATURES:
- The required energy is recovered from the biogas-CHP
- The plant uses the German KWK bonus (combined heat and power bonus) acc. to the EEG 2009
(renewable energy law)
- The thermal energy is transferred by means of warm water to the drying air
FURTHER EQUIPMENT:
Granulate storage silo with truck loading station, chemical scrubber
TECHNICAL DATA
Sludge type
anaerobic stabilized
Dryer capacity
913 - 983 kg/h or 7,305 t/y
Operating time
8,000 h/y
Inlet DS-concentration
23.5 % DS (nominal)
Outlet DS-concentration
> 90% DS
Water evaporation capacity
675 kg-water/h
Amount of dried granulate
approx. 1,900 t/y
Waste air flow
approx. 8,500 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
< 80 kWh/h
Thermal energy consumption
< 560 kWh/h
Dimensions of the entire drying plant (LxWxH)
15.0 x 13.0 x 5.1 m
8
9
Pro-Dry® 2/1 (top), rotational heat exchanger (center), air channel system for heat recovery (right)
HALL IN TIROL (AUSTRIA)
Belt Dryer, type Pro-Dry® 2/1
ENERGY SUPPLY: WASTE HEAT (380 °C) FROM A CHP
SPECIAL FEATURES:
- The thermal energy is transferred by means of waste heat from the CHP to the drying air
- The dryer has two temperature zones and an integrated heat recovery
FURTHER EQUIPMENT:
Sludge silo
TECHNICAL DATA
Sludge type
digested sludge
Dryer capacity
1,200 kg/h bzw. 8,400 t/y
Operating time
7,000 h/y
Inlet DS-concentration
approx. 30 % DS (nominal)
Outlet DS-concentration
92 % DS
Water evaporation capacity
750 kg-water/h
Waste air flow
approx. 5,000 m³/h
Temperature
approx. 50 °C
Electrical energy consumption
approx. 43.4 kWh/h
Thermal energy consumption
approx. 530 kWh/h
Dimensions of the entire drying plant (LxWxH)
10.0 x 4.0 x 7.0 m
10
11
Two Pro-Dry® 2/4 (top), air fans (center), heat recovery (right)
KAUNAS (LITHUANIA)
Two Belt Dryer, type Pro-Dry® 2/4
ENERGY SUPPLY: WARM WATER (90 °C) FROM CHP
SPECIAL FEATURES:
- Complete solution for sludge treatment incl. construction of the dryer building, CHP and gas purification
supply of CHP and gas purification, sludge processing facility and optimization of existing digestion
- Sludge feeding from three bunkers
FURTHER EQUIPMENT:
Sludge bunker, silo, sludge dewatering, heat recovery
TECHNICAL DATA
Sludge type
anaerobic stabilized
Dryer capacity
2 x 1,865 kg/h or 29,840 t/y
Operating time
8,000 h/y
Inlet DS-concentration
24 % DS (nominal)
Outlet DS-concentration
> 90 % DS
Water evaporation capacity
2 x 1,350 kg-water/h
Amount of dried granulate
8,240 t/y
Waste air flow
2 x 15,000 m³/h
Temperature
approx. 42 °C
Electrical energy consumption
approx. 350 kWh/h
Thermal energy consumption
approx. 2,300 kWh/h
Dimensions of the entire drying plant (LxWxH)
25.0 x 30.0 x 10.0 m
12
13
Compact-Dry 2/4 (top), heat recovery (center), dried product (right)
KENOSHA (USA)
Belt Dryer, type Compact-Dry 2/4
ENERGY SUPPLY: WARM WATER (90 °C) FROM CHP
SPECIAL FEATURES:
- Dried product corresponds to the US EPA Class A-standard
FURTHER EQUIPMENT:
Heat recovery
TECHNICAL DATA
Sludge type
anaerobic stabilized
Dryer capacity
1,050 kg/h or 8,400 t/y
Operating time
8,000 h/y
Inlet DS-concentration
22 - 30 % DS
Outlet DS-concentration
> 90 % DS
Water evaporation capacity
700 kg-water/h
Amount of dried granulate
approx. 300 kg/h
Waste air flow
15,050 m³/h
Temperature
approx. 45 °C
Electrical energy consumption
< 84 kWh/h
Thermal energy consumption
< 595 kWh/h
Dimensions of the entire drying plant (LxWxH)
15.2 x 11.0 x 8.0 m
14
15
Pro-Dry® 2/4 (top), air fans (center), bunker (right)
KLAIPEDA (LITHUANIA)
Belt Dryer, type Pro-Dry® 2/4
ENERGY SUPPLY: WARM WATER FROM CHP
SPECIAL FEATURES:
- Complete solution for sludge treatment
FURTHER EQUIPMENT:
Silo, sludge bunker, exhaust air treatment, heat recovery, back mixing, screening washing, sand washing,
sludge disintegration, sludge dewatering
TECHNICAL DATA
Sludge type
aerobic stabilized
Dryer capacity
2,500 kg/h or 20,000 t/y
Operating time
8,000 h/y
Inlet DS-concentration
approx. 25 % DS
Outlet DS-concentration
> 90 % DS
Water evaporation capacity
1,800 kg-water/h
Amount of dried granulate
approx. 5,520 t/y
Waste air flow
14,000 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
≤ 111 kWh/h
Thermal energy consumption
1,500 kWh/h
Dimensions of the entire drying plant (LxWxH)
36.0 x 14.0 m x 9.0 m
16
17
Pro-Dry® 2/4 (top), condensation unit with heat recovery (center), distributor (right)
KOBLENZ (GERMANY)
Belt Dryer, type Pro-Dry® 2/4
ENERGY SUPPLY: WARM AND HOT WATER (90/140 °C)
SPECIAL FEATURES:
- Extraction of the drying heat for heating of the digestion tower
- Dryer with different temperature levels
FURTHER EQUIPMENT:
Sludge bunker, exhaust air treatment, silo
TECHNICAL DATA
Sludge type
anaerobic stabilized
Dryer capacity
1,840 kg/h or 13,800 t/y
Operating time
7,500 h/y
Inlet DS-concentration
29 % DS (20 - 33 % DS)
Outlet DS-concentration
> 90 % DS
Water evaporation capacity
1,250 kg-water/h
Amount of dried granulate
4,425 t/y
Waste air flow
< 7,500 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
< 125 kWh/h
Thermal energy consumption
< 1,040 kWh/h
Dimensions of the entire drying plant (LxWxH)
30.0 x 12.0 x 10.0 m
18
19
Compact-Dry 2/2 (top), chemical scrubber (center), dried product (right)
MALLERSDORF (GERMANY)
Belt Dryer, type Compact-Dry 2/2
ENERGY SUPPLY: WASTE HEAT FROM BIOGAS PLANT
SPECIAL FEATURES:
- The drying process is designed waste water free
- The plant uses the German KWK bonus (combined heat and power bonus) acc. the EEG 2009 (renewable energy law)
FURTHER EQUIPMENT:
Chemical scrubber
TECHNICAL DATA
Sludge type
dewatered sewage sludge
Dryer capacity
500 kg/h or 4,000 t/y
Operating time
8,000 h/y
Inlet DS-concentration
25 - 28 % DS (nominal)
Outlet DS-concentration
> 90 % DS
Water evaporation capacity
400 kg-water/h
Amount of dried granulate
approx. 1,250 t/y
Waste air flow
approx. 15,000 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
< 40 kWh/h
Thermal energy consumption
approx. 310 kWh/h
Dimensions of the entire drying plant (LxWxH)
10.0 x 6.0 x 4.0 m
20
21
Pro-Dry® 2/2 (top), air fans (center), distributor (right)
ORZEGOW (POLAND)
Two Belt Dryer, type Pro-Dry® 2/2
ENERGY SUPPLY: HOT WATER (120 °C)
SPECIAL FEATURES:
- The thermal energy is transferred by means of hot water with 120 °C to the drying air
- The dewatering is effected by a Belt Filter Press with a Gravity Belt Thickener on top, our solidXklein-C
FURTHER EQUIPMENT:
Sludge bunker, biofilter
TECHNICAL DATA
Sludge type
aerobic stabilized
Dryer capacity
2,600 kg/h or 18,200 t/y
Operating time
7,000 h/y
Inlet DS-concentration
22 % DS (nominal)
Outlet DS-concentration
90 % DS
Water evaporation capacity
2 x 1,100 kg-water/h
Amount of dried granulate
3,940 t/y
Waste air flow
approx. 18,000 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
approx. 80 kWh/h
Thermal energy consumption
approx. 1,640 kWh/h
Dimensions of the entire drying plant (LxWxH)
23.5 x 20.0 x 7.0 m
22
23
Pro-Dry® 2/3 (top), air fans (center), heat recovery (right)
PORTLAOISE (IRELAND)
Belt Dryer, type Pro-Dry® 2/3
ENERGY SUPPLY: NATURAL GAS
SPECIAL FEATURES:
- The dryer is equipped with a back-mixing unit
FURTHER EQUIPMENT:
Back-mixing unit, heat recovery
TECHNICAL DATA
Sludge type
aerobic stabilized
Dryer capacity
1,940 kg/h or 14,550 t/y
Operating time
7,500 h/y
Inlet DS-concentration
approx. 20 % DS (nominal)
Outlet DS-concentration
> 90 % DS
Water evaporation capacity
1,500 kg-water/h
Amount of dried granulate
approx. 3,230 t/y
Waste air flow
approx. 15,000 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
< 110 kWh/h
Thermal energy consumption
< 1,250 kWh/h
Dimensions of the entire drying plant (LxWxH)
16.0 x 10.0 x 8.0 m
24
25
Two Pro-Dry® 2/2 (top), distributor unit (center), silo (right)
SALALAH (OMAN)
Two Belt Dryer, type Pro-Dry® 2/2
ENERGY SUPPLY: NATURAL GAS
SPECIAL FEATURES:
- The dried material is used for nutrient enrichment and for improvement of local soils
FURTHER EQUIPMENT:
Sludge bunker, silo
TECHNICAL DATA
Sludge type
aerobic stabilized
Dryer capacity
2 x 1,460 kg/h
or 2 x 10,500 kg/h
Operating time
7,200 h/y
Inlet DS-concentration
22 % DS (nominal)
Outlet DS-concentration
90 % DS
Water evaporation capacity
2 x 1,100 kg-water/h
Amount of dried granulate
approx. 5,135 t/y
Waste air flow
approx. 2 x 8,500 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
< 110 kWh/h
Thermal energy consumption
< 1,830 kWh/h
Dimensions of the entire drying plant (LxWxH)
30.0 x 25.0 x 8.5 m
26
27
Pro-Dry® 2/4 (top), biofilter (center), sludge bunker (right)
SIEDLCE (POLAND)
Belt Dryer, type Pro-Dry® 2/4
ENERGY SUPPLY: WARM WATER (90 °C) FROM CHP
SPECIAL FEATURES:
- The dryer is equipped with a back-mixing unit
- Sludge feeding from centrifuge or from third-party supply
FURTHER EQUIPMENT:
Sludge bunker, exhaust air treatment, heat recovery, back-mixing, exhaust gas heat exchanger
TECHNICAL DATA
Sludge type
dewatered sewage sludge
Dryer capacity
1,625 kg/h or 13,000 t/y
Operating time
8,000 h/y
Inlet DS-concentration
22 % DS (20 - 33 % DS)
Outlet DS-concentration
> 90 % DS
Water evaporation capacity
1,300 kg-water/h
Amount of dried granulate
approx. 2,600 t/y
Waste air flow
24,500 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
< 130 kWh/h
Thermal energy consumption
< 1,100 kWh/h
Dimensions of the entire drying plant (LxWxH)
30.0 x 15.0 x 10.0 m
28
29
Pro-Dry® 3/5 (top), natural gas burner unit (center), distributor (right)
UFA (RUSSIA)
Two Belt Dryer, type Pro-Dry® 3/5
ENERGY SUPPLY: NATURAL GAS
SPECIAL FEATURES:
- Two lined plant with three-belt-dryer
- The outlet DS concentration is > 60 %
FURTHER EQUIPMENT:
Sludge dewatering, exhaust air treatment
TECHNICAL DATA
Sludge type
aerobic stabilized
Dryer capacity
13,600 kg/h or 109,100 t/y
Operating time
8,000 h/y
Inlet DS-concentration
24 % DS (nominal)
Outlet DS-concentration
60 % DS
Water evaporation capacity
2 x 4,000 kg-water/h
Amount of dried granulate
approx. 43,600 t/y
Waste air flow
approx. 2 x 20,000 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
approx. 366 kWh/h
Thermal energy consumption
approx. 6,800 kWh/h
Dimensions of the entire drying plant (LxWxH)
30.0 x 42.0 x 10.0 m
30
31
Pro-Dry® 2/3 (top), natural gas burner (center), sludge bunker (right)
ZYWIEC (POLAND)
Belt Dryer, type Pro-Dry® 2/3
ENERGY SUPPLY: NATURAL GAS/BIOGAS
SPECIAL FEATURES:
- The required drying heat is transferred through natural gas burners in the form of hot air to the air circulation
- The dryer is equipped with a back-mixing unit
FURTHER EQUIPMENT:
Sludge bunker, exhaust air treatment
TECHNICAL DATA
Sludge type
dewatered sewage sludge
Dryer capacity
1,800 kg/h or 14,400 t/y
Operating time
8,000 h/y
Inlet DS-concentration
15 - 35 % DS (nominal)
Outlet DS-concentration
92 - 94 % DS
Water evaporation capacity
1,400 kg-water/h
Amount of dried granulate
approx. 3,900 t/y
Waste air flow
15,000 m³/h
Temperature
approx. 40 °C
Electrical energy consumption
< 113 kWh/h
Thermal energy consumption
< 1,160 kWh/h
Dimensions of the entire drying plant (LxWxH)
30.0 x 17.0 x 8.5 m
32
33
CUSTOMIZED
SOLUTIONS
REFERENCE LIST BELT DRYER
PROJECT
COUNTRY
BELT DRYER
WATER EVAPORATION
(KG/H)
SLUDGE TYPE
Bayr. Untermain
Germany
3 x Pro-Dry® 2/5
3 x 700
aerobic stabilized
Granetal
Germany
2 x Pro-Dry 5/2
2 x 250
potable water filter sludge
Austria
Pro-Dry® 2/1
750
digested sludge
Kempten
Germany
Pro-Dry® 2/4
1,200
digested sludge
Schaumburg
Germany
Pro-Dry® 2/2
700
waste/fertilizer
BOSZ Nusbaum-Freilingen
Germany
wood chips dryer 3/2
500
wood chips
Abha
Saudi Arabia
Pro-Dry 2/3
800
aerobic stabilized
Khamiz old
Saudi Arabia
Pro-Dry® 2/3
820
aerobic stabilized
Taschkent
Uzbekistan
Pro-Dry® 3/6
1,200
aerobic stabilized
Abha East
Saudi Arabia
Pro-Dry® 2/5
1,620
aerobic stabilized
Khamiz new
Saudi Arabia
Pro-Dry® 2/5
1,650
aerobic stabilized
Hall in Tirol
Wangen
®
®
Germany
Pro-Dry 2/3
800
aerobic stabilized
New Zealand
Pro-Dry® C
400
aerobic stabilized
Tarnow
Poland
Pro-Dry® 3/5
2,900
aerobic stabilized
Morzine
France
Pro-Dry® 2/2
500
aerobic stabilized
Donegal
Ireland
Pro-Dry® 2/3
1,000
aerobic stabilized
Orzegow
Poland
2 x Pro-Dry® 2/2
2 x 1,100
aerobic stabilized
Germany
Pro-Dry® 2/2
675
anaerobic stabilized
Switzerland
Pro-Dry® 2/2
1,000
digested sludge
Germany
Pro-Dry® 2/2
450
digested sludge
Ufa
Russia
2 x Pro-Dry® 3/5
2 x 4,000
aerobic stabilized
Portlaoise
Ireland
Pro-Dry® 2/3
1,500
aerobic stabilized
Tengen
Germany
Compact-Dry 2/2
300
waste / fertilizer
Oyonnax
France
Pro-Dry® 2/4
1,400
aerobic stabilized
New Zealand
2 x Pro-Dry® 2/4
2 x 2,500
aerobic stabilized
Clonmel
Ireland
Pro-Dry® 2/3
1,500
aerobic stabilized
Salalah
Watercare
Georgsmarienhütte
Nyon
Bruckmühl
Christchurch
®
Oman
2 x Pro-Dry 2/2
2 x 1,100
aerobic stabilized
Mallersdorf
Germany
Compact-Dry 2/2
400
dewatered sewage sludge
Letterkenny
Ireland
Pro-Dry® 2/3
1,620
dewatered sewage sludge
Klaipeda
Lithuania
Pro-Dry® 2/4
1,800
aerobic stabilized
Mariampole
Lithuania
Pro-Dry® 2/2
1,213
dewatered sewage sludge
Zywiec
Poland
Pro-Dry® 2/3
1,400
dewatered sewage sludge
Siedlce
Poland
Pro-Dry® 2/4
1,300
dewatered sewage sludge
Great Britain
Conti-Dry 2/5
1,300
dewatered waste/
fertilizer from decanter
Biffa
®
Erfurt
Germany
Disk Dryer
2,500
dewatered sewage sludge
Koblenz
Germany
Pro-Dry® 2/4
1,250
anaerobic stabilized
Kaunas
Lithuania
Pro-Dry® 2/4
2 x 1,350
anaerobic stabilized
Kenosha
USA
Compact-Dry 2/4
700
anaerobic stabilized
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ENERGY SOURCE
(TEMPERATURE)
START UP
FURTHER EQUIPMENT
natural gas
1997
with automatic loading of dried product
electrical energy
1998
with thickening and dewatering
flue gas (380 °C)
2004
with sludge silo
warm water (80 °C)
2005
with sludge silo and dry product loading silo
biogas/waste heat (380 °C)
2005
-
warm water (85 °C)
2005
wood chip bunker
natural gas
2005
with sludge silo and dry product loading silo
natural gas
2005
with sludge silo and dry product loading silo
natural gas
2006
-
natural gas
2006
with dewatering
natural gas
2006
with dewatering
warm water
2006
with dewatering and sludge receiving bunker
warm water
2006
in combination with drum dryer
natural gas
2008
with sludge receiving bunker and biofilter
biogas/fuel oil
2008
-
natural gas
2008
-
hot water (120 °C)
2008
with sludge receiving bunker and biofilter
warm water (75 °C)
2008
with chemical washing and biofilter, dried sludge silo
warm water (60 °C)
2008
-
biogas
2008
-
natural gas
2009
-
natural gas
2009
with dried sludge back mixing unit
warm water (80 °C)
2009
-
natural gas
2009
-
hot water (165 °C)
2010
with wet sludge silo, dried sludge silo, chemical
washing and biofilter
natural gas
2010
with sludge receiving bunker
natural gas
2010
with sludge receiving bunker and granules loading silo
waste heat from biogas plant
2011
with chemical washing
fuel oil
2012
-
warm water (90 °C)
2013
with screen washing plant, grit washer,
sludge des-integration and sludge dewatering
natural gas
2013
with sludge receiving bunker and dried sludge silo
natural gas
2013
with sludge receiving bunker and chemical washing
warm water (90 °C)
2014
with sludge bunker and chemical washing
warm water (90 °C)
2014
-
steam (9 bar, 220 °C)
2014
with sludge receiving bunker, pneumatic conveying
hot water (90/140 °C)
2015
sludge receiving bunker, chemical washing, pneumatic conveying and dried sludge silo
warm water (90 °C)
2015
with sludge receiving bunker, dried sludge silo and sludge dewatering
warm water (90 °C)
2015
-
34
35
STEEL
ENERGY
IDEAS
Sülzle Klein GmbH
Konrad-Adenauer-Straße 194
57572 Niederfischbach
Germany
phone
+49 2734 43480 - 0
Fax
+49 2734 43480 - 130
mailinfo@suelzle-klein.com
websuelzle-klein.com
Part of the Sülzle Group.
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