Håkan Jönsson Department of Energy and Technology

Incineration & landfilling

Håkan JönssonProfessor

Hakan.Jonsson@et.slu.seSwedish University of Agricultural

Sciences

Håkan Jönsson Department of Energy and Technology

Waste incineration

•Renewable fuel: 80-90% of Swedish household waste is renewable (incineration tax assumed 87.4%)

•Heating value: 2,5-3,2-4 kWh/kg, 9-11,5-14 MJ/kg

•Heterogeneous ”dirty” fuel–Extensive flue gas cleaning necessary

–Large plants

•Storage needed but difficult–Even production over the year

–Difficult when biowaste is included

Håkan Jönsson Department of Energy and Technology

Waste incineration 2008

– 29 incineration plants for household waste, 4.6 Mton/yr, of which 2.3 Mton/yr household waste

• Sizes; > 200 000/yr 7 plants (Sthlm, Gbg, Lin, Mö, Stje, Svall, Ua), 100 000 - 200 000/yr 4 plants and <100 000/yr 18 plants

– Energy recovery 12.2 TWh heat (29% of district heating) & 1.5 TWh electricity (1% of electricity use)

– Mass decreases by 75%, volume by 90%.• Residues: slag 20%, fly ash 3-5% (hazardous waste)• Initially introduced for mass and volume reduction

Håkan Jönsson Department of Energy and Technology

Air emissions

Substance 1985 1996 2002 2005 2008 Reduction85-08

Particles,ton 420 33 35 39 30 93%

HCl, ton 8400 412 143 98 39 100%

SOx, ton 3400 1121 790 310 154 95%

NOx, ton 3400 1463 1815 1904 2190 35%

Hg, kg 3300 77 21 33 44 99%

Cd, kg 400 8 15 (Cd+Tl)

21 (Cd+Tl)

6 (Cd+Tl)

>98%

Pb, kg 25 000 214 138 77 136 99%

Dioxins, g 90 2 1.1 1.1 0,8 99%

Håkan Jönsson Department of Energy and Technology

GRAABS plant, Gothenburg

Håkan Jönsson Department of Energy and Technology

Waste incinerator - Uganda

Håkan Jönsson Department of Energy and Technology

An advanced incineration system

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Flue gas - pollutants• Particles

– Filter – electrostatic and/or textile filters

• NOx Fee 50 SEK/kg NOx (Total 688 milj SEK)– Ammonia injection:

4 NH3 + 6 NO -> 5 N2 + 6 H2O; 4 NH3 + 4 NO +O2 -> 4 N2 + 6 H2O – In furnace SNCR (Selctive Non-Cathalytic Reduction – 900-1050°C, 40-60%

reduction)– After furnace SCR (Selective Cathalytic Reduction – 300-400°C, 70-90%

reduction)

• HCl– Alkaline treatment (lime)

• SOx– Alkaline treatment (lime)

• Heavy metals– Removed with particles and acids

• Dioxin– Attaches to active C, removed with particles at low temperature

Håkan Jönsson Department of Energy and Technology

Flue gas cleaning - filters

• Cyclone• Electro filter• Textile filter

(slangfilter)• Scrubber

Ill: Niro A/S

Håkan Jönsson Department of Energy and Technology

Important parameters

• Temperature

• Retention time

• Oxygen

• Turbulence

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Sources of dioxin in Sweden

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Incineration plants

• Grate furnaces (Rosterpannor)– Most common– accepts large “particles” – sensitive for varying energy content – hard to control – much fuel in system– grates need water cooling if waste is dry

• Fluidised bed roaster (Fluidbäddpanna)– Easier to control and

adjust to fuel– Shreading necessary

- (max 10 cm)

Ill: Berman & Dille, Westinghouse

Fluidised bed roaster

Håkan Jönsson Department of Energy and Technology

A modern incineration plant

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Flue gas cleaning

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Incineration hazardous waste

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Landfill

Håkan Jönsson Department of Energy and Technology

The different stages of a landfill

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Water flows

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Land fill and water flows

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Requirements on liner

Tid Flöde

200 år <5 l/m2, år

50 år <50 l/m2, år

1 år

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Hydrological considerations

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Collection of landfill gas2003: 414 GWh to district heating, 26 WGWh electricity and 60 GWh not used.

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

A well managed sanitary landfill

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Top and bottom liner

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Liners - hazardous waste

Fig: Persson, 2005

Håkan Jönsson Department of Energy and Technology

Landfill –biowaste banned

• EU Directive fully implemented 2008

• Containment of waste• Biowaste goes anaerobic• Org C -> CH4 & CO2

– Greenhouse gas, 50% collected (optimistic figure), 10% oxidised

– Risk of fire

• Sinking – top liner damaged – more leachate• Nutrients and heavy metals leaches

Aim: totally sealed