Full-Scale Incineration System Demonstration

#Dioxin remediation research. #OhioChernobyl > Full-Scale Incineration System Demonstration 100 ton/day rotary kiln incinerator in processing soil contaminated with dioxins and other hazardous constituents of Herbicide Orange. https://t.co/upbFQtt2ha

— systembuster (@stlsystembuster) February 26, 2023

@Elastec could the exhause heat generated by an inceneratior be used to spin a turbine of sorts to generate the electricity needed for a incenerator?

— systembuster (@stlsystembuster) February 26, 2023

 Full-Scale Incineration System Demonstration at the Naval Battalion Construction Center, Gulfport, Mississippi

Air Force Engineering and Services Center, ESL-TR-89-39, 1991
Cook, J.A., D.J. Haley, et al.

The overall goal of the project was to determine the cost and effectiveness of a 100 ton/day rotary kiln incinerator in processing soil contaminated with dioxins and other hazardous constituents of Herbicide Orange.

Vol 1: Project Summary

Vol 2: Part 1 - Contains the final report on the trial burns

Vol 2: Part 2 - Contains Appendices A-H

Vol 3: Treatability Tests, Part 1

Vol 3: Treatability Tests, Part 2

Vol 3: Treatability Tests, Part 3

Vol 3: Treatability Tests, Part 4

Vol 3: Treatability Tests, Part 5

Vol 4: Incinerator Operations

Vol 5: Incinerator Availability

Vol 6: Soil Excavation

Vol 7: Project Management/Site Services

Vol 8: Delisting

This research paper from 1991 from the EPA Clu-In Files for Dioxin Incineration System provides a Diagram source file: 

Dioxin Treatment Technologies

November 1991

OTA-BP-O-93

NTIS order #PB92-152511

https://clu-in.org/download/contaminantfocus/dioxins/Dioxin-Treatment-Technologies-OTA-9116.pdf

Dioxin Treatment Technologies

November 1991

OTA-BP-O-93

NTIS order #PB92-152511

https://clu-in.org/download/contaminantfocus/dioxins/Dioxin-Treatment-Technologies-OTA-9116.pdf

 

LIQUID INJECTION INCINERATION TECHNOLOGY Liquid injection (LI) is not currently available for dioxin treatment, but it has been used aboard ships for ocean-based incineration of Agent Orange. It is also employed in many industrial and manufacturing sectors for treatment of hazardous organic and inorganic wastes. As shown in figure 2-3, the typical LI incinerator consists of a burner, two combustion chambers (primary and secondary), a quench chamber, a scrubber, and a stack. Vertical LI incinerators are preferred for treating liquid waste rich in organics and salts (and therefore ash) because the incinerator unit can be used as its own stack to facilitate the handling of generated ash. Portions of the vertical LI unit can also be used as a secondary combustion chamber. The horizontally shaped LI units are connected to a tall stack and are preferred for treating liquid waste that generates less ash. In both systems, the use of external waste storage and blending tanks helps maintain the waste in a homogeneous form and at a steady flow.37 Some of the limitations that must be considered before applying LI incineration to dioxin destruction include the following: ● ● ● LI systems are applicable only to combustible low-viscosity liquids and slurries that can be pumped; waste must be atomized prior to injection into the combustor; and particle size is critical because burners are susceptible to clogging at the nozzles.3

@EPA Own Publications explained how to deal with #Ohio Chemical Incineration > U.S. Congress, Office of Technology Assessment, Dioxin Treatment Technologies Background Paper, OTA-BP-O-93 (Washington, DC: U.S. Government printing Office) pic.twitter.com/2VDdPloAYg

— systembuster (@stlsystembuster) February 26, 2023

This type of Incinerator is very similar to the #Downdraft #Gasifer Offgrid Hot Water and Hot Air system I designed and shared months ago. https://t.co/Im01RKt8uo pic.twitter.com/jGsSxS4aor

— systembuster (@stlsystembuster) February 26, 2023

— systembuster (@stlsystembuster) February 26, 2023