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Küttner Energy & Environment GmbH Tel. +49 (0) 201 72 93 – 0 [email protected]. 28 · 45130 Essen Fax +49 (0) 201 7293 134 www.kuettner.com 63
31-e
n 04
/12
THERMAL UTILISATION of wastes
SEWAGE SLUDGE
Incineration of sewage sludges
Energy effi ciency
Closing of material cycles
Cost reduction
KÜTTNER ENERGY & ENVIRONMENT GMBH
Subsidiary of Küttner GmbH & Co. KG
A globally acting group of companies has developed from the engineering company once founded in 1949 by Dr. Carl Küttner. Nowadays, their main focus is on building turn-key plants for the iron & steel producing industry, foundry and NF (non-ferrous) industry, especially in the fi elds of process and smelting technology, materials hand-ling as well as of energy and environmental technologies.
Küttner Energy & Environment is one of the leading global players in developing and implementing innovative and sustainable energy and environmental technologies for
3D concept of an entire sewage sludge incineration line
The treatment of wastes always shifts between the confl icting priorities of ecology, economy and social responsibility of the present generati-on towards the future ones. In the past, sewage sludge treatment in rural areas mainly focused on agricultural use, whereas incineration and landfi ll disposal prevailed in metropolitan areas.
The agricultural use of sludges is only advanta-geous from a superfi cial point of view, based on its low-cost disposal for operators of waste-water treatment plants, and its use as fertilizer.
The ecological aspect of sludges being a sink for heavy metals is completely ignored. The increasing fraction of waste water to be treated inevitably leads to further increasing amounts of sewage sludge. Additionally, sludges present increasing amounts of degradation resistant eco-toxic substances originating from domestic environments.
These cover medicines, cosmetics, washing additives, as well as softening agents from plas-tics, fl ame retardants and, fi nally, residuals from domestic fi re places. These substances must be prevented from entering into rivers, streams and lakes as well as ground water.
All this can only result in one sustainable key solution for the treatment of sewage sludge. The challenge reads: Finding an economic alternative which is harmless for air, water and ground while simultaneously ensuring high reliability to the operators of waste water treatment plants.
The thermal disposal of sludges incorporating proven and tested processes, together with inno-vative approaches meets all requirements. This technology enables recycling of phosphorous by using the resulting ashes in order to produce a fertilizer, which then reenters the natural phospho-rous cycle.
effi cient energy use, reductions in environmental impacts and optimisiation of material cycles.
Our scope of services comprises the design and enginee-ring, construction, delivery, assembly, as well as the start-up and commissioning of the entire plant including control system and data processing.
Küttner systems can be found in almost all industrial sectors. Worldwide Küttner-Group personnel counts more than 650 employees, their owners themselves being active within the company.
FLUIDISED BED TECHNOLOGYRELIABLE WASTE DISPOSAL:BASED ON EFFICIENT PLANT TECHNOLOGY
KÜTTNER-TECHNOLOGY
Fluidised bed with closed air distribution base
Capacity: 10,000 t/a
Incineration medium: domestic, petrochemical and industrial sludges
Reactor height: 9 m
Bed temperature: 850 °C
Throughput: 1.5 t/h drained sludges (50 % DS)
Thermal power: 3 MW
Air staging: single-stage
Heat recovery: steam boiler
Steam power: 3.5 t/h (20 bar)
Ashes discharge: overflow with fluid bed cooler
Fluid bed with open nozzle bottom
Capacity: 16,000 t/a
Incineration medium: paper as well as tannery sludges and domestic sewage sludge
Reactor height: 15 m
Bed temperature: 820 °C
Freeboardtemperature: 850 °C
Throughput: 2.0 t/h mixed sludges (48 % DS)
Thermal power: 2.4 MW
Air staging: two-stage
Heat recovery: thermo-oil boiler
Thermo-oil boiler: 2.2 MW
Ashes discharge: continuous discharge of ashes/contaminants
Fluidized bed technology has been established with Küttner for many years. The first successful ins-tallations for foundry sand regeneration were built in the 1990s. The adaption of existing know-how together with the handling of low-calorific fuels in the environmental field led to sludge incineration based on fluidized bed technology. Over 80 % of the thermal output from the fuel can be recovered and used within the process.
After being used for drying the sewage sludge and preheating the air, the remaining thermal energy recovered from the incineration is available for further applications, such as:
• heating of sewage sludges upstream of the digestion tower
• utilization in district heating
• power generation
• process heat for industrial applications
The key issue in any plant design is the proper conside-ration and identification of the energy flow.
Küttner designs and supplies process equipment worldwi-de. In close cooperation with our customers, we develop solutions from single components via subsystems up to turnkey plants. The development of individual solutions for effective energy utilization as well as minimization of material flows is a key issue.
This approach applies to new conceptual designs as well as for implementation and adaption in existing infrastructure.
GROSS- WILFERSDORF3D Concept - Reactor and Vessel
GROSS- WILFERSDORF (Austria)
GENDORF(Germany)
Mass flow sewage sludge incineration
Theoretical thermal power of an incineration line
Küttner Reactor Design IReactor design I features the closed ceramic air distribution base. A so-called windbox situated below this base includes the burner which facilitates the start-up of the reactor. This layout is the best choice for all sludges with low amount of impurities. The bed height can be regulated via a lateral offtake.
Reactor design I is perfectly suited for single-stage and two-stage incineration processes.
Küttner Reactor Design II Reactor design II with its open air distribution base represents the best solution for sludges containing a high amount of impurities. Due to the barrier-free design of the air distribution base, impurities are transported to a central opening. Here they are extracted from the reactor and separated from bed material.
This reactor design is perfectly suited for single-stage and two-stage incineration processes.
FLUIDISED BED TECHNOLOGYRELIABLE WASTE DISPOSAL:BASED ON EFFICIENT PLANT TECHNOLOGY
KÜTTNER-TECHNOLOGY
Fluidised bed with closed air distribution base
Capacity: 10,000 t/a
Incineration medium: domestic, petrochemical and industrial sludges
Reactor height: 9 m
Bed temperature: 850 °C
Throughput: 1.5 t/h drained sludges (50 % DS)
Thermal power: 3 MW
Air staging: single-stage
Heat recovery: steam boiler
Steam power: 3.5 t/h (20 bar)
Ashes discharge: overflow with fluid bed cooler
Fluid bed with open nozzle bottom
Capacity: 16,000 t/a
Incineration medium: paper as well as tannery sludges and domestic sewage sludge
Reactor height: 15 m
Bed temperature: 820 °C
Freeboardtemperature: 850 °C
Throughput: 2.0 t/h mixed sludges (48 % DS)
Thermal power: 2.4 MW
Air staging: two-stage
Heat recovery: thermo-oil boiler
Thermo-oil boiler: 2.2 MW
Ashes discharge: continuous discharge of ashes/contaminants
Fluidized bed technology has been established with Küttner for many years. The first successful ins-tallations for foundry sand regeneration were built in the 1990s. The adaption of existing know-how together with the handling of low-calorific fuels in the environmental field led to sludge incineration based on fluidized bed technology. Over 80 % of the thermal output from the fuel can be recovered and used within the process.
After being used for drying the sewage sludge and preheating the air, the remaining thermal energy recovered from the incineration is available for further applications, such as:
• heating of sewage sludges upstream of the digestion tower
• utilization in district heating
• power generation
• process heat for industrial applications
The key issue in any plant design is the proper conside-ration and identification of the energy flow.
Küttner designs and supplies process equipment worldwi-de. In close cooperation with our customers, we develop solutions from single components via subsystems up to turnkey plants. The development of individual solutions for effective energy utilization as well as minimization of material flows is a key issue.
This approach applies to new conceptual designs as well as for implementation and adaption in existing infrastructure.
GROSS- WILFERSDORF3D Concept - Reactor and Vessel
GROSS- WILFERSDORF (Austria)
GENDORF(Germany)
Mass flow sewage sludge incineration
Theoretical thermal power of an incineration line
Küttner Reactor Design IReactor design I features the closed ceramic air distribution base. A so-called windbox situated below this base includes the burner which facilitates the start-up of the reactor. This layout is the best choice for all sludges with low amount of impurities. The bed height can be regulated via a lateral offtake.
Reactor design I is perfectly suited for single-stage and two-stage incineration processes.
Küttner Reactor Design II Reactor design II with its open air distribution base represents the best solution for sludges containing a high amount of impurities. Due to the barrier-free design of the air distribution base, impurities are transported to a central opening. Here they are extracted from the reactor and separated from bed material.
This reactor design is perfectly suited for single-stage and two-stage incineration processes.
FLUIDISED BED TECHNOLOGYRELIABLE WASTE DISPOSAL:BASED ON EFFICIENT PLANT TECHNOLOGY
KÜTTNER-TECHNOLOGY
Fluidised bed with closed air distribution base
Capacity: 10,000 t/a
Incineration medium: domestic, petrochemical and industrial sludges
Reactor height: 9 m
Bed temperature: 850 °C
Throughput: 1.5 t/h drained sludges (50 % DS)
Thermal power: 3 MW
Air staging: single-stage
Heat recovery: steam boiler
Steam power: 3.5 t/h (20 bar)
Ashes discharge: overflow with fluid bed cooler
Fluid bed with open nozzle bottom
Capacity: 16,000 t/a
Incineration medium: paper as well as tannery sludges and domestic sewage sludge
Reactor height: 15 m
Bed temperature: 820 °C
Freeboardtemperature: 850 °C
Throughput: 2.0 t/h mixed sludges (48 % DS)
Thermal power: 2.4 MW
Air staging: two-stage
Heat recovery: thermo-oil boiler
Thermo-oil boiler: 2.2 MW
Ashes discharge: continuous discharge of ashes/contaminants
Fluidized bed technology has been established with Küttner for many years. The first successful ins-tallations for foundry sand regeneration were built in the 1990s. The adaption of existing know-how together with the handling of low-calorific fuels in the environmental field led to sludge incineration based on fluidized bed technology. Over 80 % of the thermal output from the fuel can be recovered and used within the process.
After being used for drying the sewage sludge and preheating the air, the remaining thermal energy recovered from the incineration is available for further applications, such as:
• heating of sewage sludges upstream of the digestion tower
• utilization in district heating
• power generation
• process heat for industrial applications
The key issue in any plant design is the proper conside-ration and identification of the energy flow.
Küttner designs and supplies process equipment worldwi-de. In close cooperation with our customers, we develop solutions from single components via subsystems up to turnkey plants. The development of individual solutions for effective energy utilization as well as minimization of material flows is a key issue.
This approach applies to new conceptual designs as well as for implementation and adaption in existing infrastructure.
GROSS- WILFERSDORF3D Concept - Reactor and Vessel
GROSS- WILFERSDORF (Austria)
GENDORF(Germany)
Mass flow sewage sludge incineration
Theoretical thermal power of an incineration line
Küttner Reactor Design IReactor design I features the closed ceramic air distribution base. A so-called windbox situated below this base includes the burner which facilitates the start-up of the reactor. This layout is the best choice for all sludges with low amount of impurities. The bed height can be regulated via a lateral offtake.
Reactor design I is perfectly suited for single-stage and two-stage incineration processes.
Küttner Reactor Design II Reactor design II with its open air distribution base represents the best solution for sludges containing a high amount of impurities. Due to the barrier-free design of the air distribution base, impurities are transported to a central opening. Here they are extracted from the reactor and separated from bed material.
This reactor design is perfectly suited for single-stage and two-stage incineration processes.
Küttner Energy & Environment GmbH Tel. +49 (0) 201 72 93 – 0 [email protected]. 28 · 45130 Essen Fax +49 (0) 201 7293 134 www.kuettner.com 63
31-e
n 04
/12
THERMAL UTILISATION of wastes
SEWAGE SLUDGE
Incineration of sewage sludges
Energy effi ciency
Closing of material cycles
Cost reduction
KÜTTNER ENERGY & ENVIRONMENT GMBH
Subsidiary of Küttner GmbH & Co. KG
A globally acting group of companies has developed from the engineering company once founded in 1949 by Dr. Carl Küttner. Nowadays, their main focus is on building turn-key plants for the iron & steel producing industry, foundry and NF (non-ferrous) industry, especially in the fi elds of process and smelting technology, materials hand-ling as well as of energy and environmental technologies.
Küttner Energy & Environment is one of the leading global players in developing and implementing innovative and sustainable energy and environmental technologies for
3D concept of an entire sewage sludge incineration line
The treatment of wastes always shifts between the confl icting priorities of ecology, economy and social responsibility of the present generati-on towards the future ones. In the past, sewage sludge treatment in rural areas mainly focused on agricultural use, whereas incineration and landfi ll disposal prevailed in metropolitan areas.
The agricultural use of sludges is only advanta-geous from a superfi cial point of view, based on its low-cost disposal for operators of waste-water treatment plants, and its use as fertilizer.
The ecological aspect of sludges being a sink for heavy metals is completely ignored. The increasing fraction of waste water to be treated inevitably leads to further increasing amounts of sewage sludge. Additionally, sludges present increasing amounts of degradation resistant eco-toxic substances originating from domestic environments.
These cover medicines, cosmetics, washing additives, as well as softening agents from plas-tics, fl ame retardants and, fi nally, residuals from domestic fi re places. These substances must be prevented from entering into rivers, streams and lakes as well as ground water.
All this can only result in one sustainable key solution for the treatment of sewage sludge. The challenge reads: Finding an economic alternative which is harmless for air, water and ground while simultaneously ensuring high reliability to the operators of waste water treatment plants.
The thermal disposal of sludges incorporating proven and tested processes, together with inno-vative approaches meets all requirements. This technology enables recycling of phosphorous by using the resulting ashes in order to produce a fertilizer, which then reenters the natural phospho-rous cycle.
effi cient energy use, reductions in environmental impacts and optimisiation of material cycles.
Our scope of services comprises the design and enginee-ring, construction, delivery, assembly, as well as the start-up and commissioning of the entire plant including control system and data processing.
Küttner systems can be found in almost all industrial sectors. Worldwide Küttner-Group personnel counts more than 650 employees, their owners themselves being active within the company.
Küttner Energy & Environment GmbH Tel. +49 (0) 201 72 93 – 0 [email protected]. 28 · 45130 Essen Fax +49 (0) 201 7293 134 www.kuettner.com 6331
-en
04/1
2
THERMAL UTILISATION of wastes
SEWAGE SLUDGE
Incineration of sewage sludges
Energy effi ciency
Closing of material cycles
Cost reduction
KÜTTNER ENERGY & ENVIRONMENT GMBH
Subsidiary of Küttner GmbH & Co. KG
A globally acting group of companies has developed from the engineering company once founded in 1949 by Dr. Carl Küttner. Nowadays, their main focus is on building turn-key plants for the iron & steel producing industry, foundry and NF (non-ferrous) industry, especially in the fi elds of process and smelting technology, materials hand-ling as well as of energy and environmental technologies.
Küttner Energy & Environment is one of the leading global players in developing and implementing innovative and sustainable energy and environmental technologies for
3D concept of an entire sewage sludge incineration line
The treatment of wastes always shifts between the confl icting priorities of ecology, economy and social responsibility of the present generati-on towards the future ones. In the past, sewage sludge treatment in rural areas mainly focused on agricultural use, whereas incineration and landfi ll disposal prevailed in metropolitan areas.
The agricultural use of sludges is only advanta-geous from a superfi cial point of view, based on its low-cost disposal for operators of waste-water treatment plants, and its use as fertilizer.
The ecological aspect of sludges being a sink for heavy metals is completely ignored. The increasing fraction of waste water to be treated inevitably leads to further increasing amounts of sewage sludge. Additionally, sludges present increasing amounts of degradation resistant eco-toxic substances originating from domestic environments.
These cover medicines, cosmetics, washing additives, as well as softening agents from plas-tics, fl ame retardants and, fi nally, residuals from domestic fi re places. These substances must be prevented from entering into rivers, streams and lakes as well as ground water.
All this can only result in one sustainable key solution for the treatment of sewage sludge. The challenge reads: Finding an economic alternative which is harmless for air, water and ground while simultaneously ensuring high reliability to the operators of waste water treatment plants.
The thermal disposal of sludges incorporating proven and tested processes, together with inno-vative approaches meets all requirements. This technology enables recycling of phosphorous by using the resulting ashes in order to produce a fertilizer, which then reenters the natural phospho-rous cycle.
effi cient energy use, reductions in environmental impacts and optimisiation of material cycles.
Our scope of services comprises the design and enginee-ring, construction, delivery, assembly, as well as the start-up and commissioning of the entire plant including control system and data processing.
Küttner systems can be found in almost all industrial sectors. Worldwide Küttner-Group personnel counts more than 650 employees, their owners themselves being active within the company.
