Incineration of both industrial and municipal solid waste has been widely used due to
its ability to reduce the volume of waste by about 90% and detoxify the waste.
However, a great challenge associated with waste incineration is production of toxic
fly and bottom ashes. These ashes contain heavy metals which enters water bodies
through percolation and absorption, and their consequences on human and animals is
enormous. Various researches were conducted on the application of thermal plasma
arc technology to safely detoxify incinerator ashes. The final product from plasma
treatment is a melt or vitreous slag within which toxic heavy metals are cemented. This
paper reviewed the different studies conducted on the treatment of incinerator fly and
bottom ashes in thermal plasma arc reactor. The review looked at the characteristics
of the ashes, the thermal plasma reactor specifications, the operating conditions and
the product characteristics. It also focused on effectiveness of the treatment processes
in terms of volume reduction, detoxification, crystalline structure of the product and
their usability. It is generally observed that thermal plasma arc reactors detoxify both
fly and bottom incinerator ashes, reduce the volume of waste by about 90% and
convert the ash to a vitreous slag where heavy metals are immobilized. Low basicity in
parent ash favours conversion of ash into glassy vitreous slag