Energy from Waste
Incinerator Bottom Ash (IBA)
What is Incinerator Bottom Ash (IBA)?
IBA is the ash that is left over after waste is burnt in an incinerator. Municipal energy from waste plants that use incineration burn a wide range of municipal wastes and therefore the term ‘ash’ is slightly misleading because it is not all powdery but contains glass, brick, rubble, sand, grit, metal, stone, concrete, ceramics and fused clinker as well as combusted
products such as ash and slag.
IBA is different from Air Pollution Control (APC) residue, which is the by product of cleaning up flue gases from the combustion process and is a mixture of fly ash, and the reagents (mainly lime) used in the flue gas treatment APC residues are classified as hazardous waste and account for approximately 2 % by weight of the waste inputs.
How much IBA does a typical municipal incinerator produce?
IBA produced from a typical municipal incinerator represents about 20-30% of the input waste.
Approximately 1.3 million tonnes
of IBA are produced in England and Wales each year. In 2014, 93%
of IBA produced was reused.
Source: EA Pollution Inventory Returns & Waste Returns
What happens to IBA?
The IBA is removed from the furnace, and large objects, such as stones, bricks and metals are screened out and are recycled/reused where possible. The remaining ash must then be characterised by the plant operator as either hazardous or non-hazardous and taken off site.
If the IBA is non-hazardous it can be processed into a secondary aggregate and used in road sub base, a bulk filler for construction and in cement bound materials.
If the IBA is hazardous it must either be disposed of in a hazardous waste landfill or go for further treatment.
Reuse and Recycling of IBA
How is non-hazardous IBA reused / recycled?
IBA can be recycled in a number of construction applications to replace primary aggregates extracted from quarries.
- Use of IBA as a secondary Aggregate
Recycling IBA in this way also avoids landfill disposal. IBA used in this way
is regulated by the Environment Agency and must also conform to relevant publicly available civil engineering standards. During 2011, 86% of IBA produced was reused in this way.
- Recovery of metals from IBA
Approximately 6% or 100,000 tonnes of ferrous and non-ferrous metals
are also recovered from IBA to be reprocessed into new metal products.
Sampling and Testing of IBA
In 2010 ESA published a ‘Sampling and Testing Protocol’ which was approved by the Environment Agency. It sets out in detail how plants should sample and analyse IBA.
Operators of municipal energy from waste (EfW) facilities have been collecting IBA according to the protocol since January 2011.