D 7 0 0 2 6 0 M 2 0 Alkaline Hydrolysis Treatability Study for Nitroaromatic Compounds Contaminated Soil Steven T. Downey, PE, PMP Lingke Zeng Shaw Environmental & Infrastructure Group Doug Mullendore, USACE D 7 0 0 2 6 0 M 2 0 Agenda • Introduction • Technology Description • Study Setup and Method • Results • Summary and Recommendations D 7 0 0 2 6 0 M 2 0 Introduction • The former Plum Brook Ordnance Works (PBOW) was used to manufacture TNT from 1941 to 1945 • PBOW is located near Sandusky, OH • Facility included 3 TNT manufacturing areas • TNT production resulted in soil and groundwater contamination • Complete decontamination was not achieved, so portions are still contaminated with nitroaromatic and other contaminants D 7 0 0 2 6 0 M 2 0 Introduction • The primary chemicals of concern in soil are trinitrotoluene (TNT), dinitrotoluene (DNT) isomers, amino-DNT isomers, poly aromatic hydrocarbon (PAH), poly chlorinated benzene (PCB), and lead • TNT and DNTs exhibit the most elevated levels as high as 0.5 and 1 percent of soil mass • Alkaline hydrolysis was selected as a preferred alternative for treating soil with high concentrations of nitroaromatics D 7 0 0 2 6 0 M 2 0 Introduction • As a precursor to full-scale remediation, an alkaline hydrolysis bench-scale treatability study was conducted to: – Determine the most effective reagent – Establish treatment duration – Determine the most effective neutralizing chemical – Examine effects on contaminants other than nitroaromatics • Treatability study was conducted at Shaw’s Technology Development Laboratory (TDL) in Knoxville, TN D 7 0 0 2 6 0 M 2 0 Plum Brook Ordnance Works D 7 0 0 2 6 0 M 2 0 Technology Description • Hydroxide ion (OH-) is a strong nucleophile • It has been shown to react with TNT, DNT isomers, and their reduction products (e.g., amino-DNTs) under basic conditions • This provides an energy source for indigenous microorganisms • Nucleophilic substitutions of the nitro and methyl groups of TNT by hydroxide ion are the initial steps in the degradation process that result in a variety of potential reaction products • Reaction products from alkaline hydrolysis of nitroaromatic compounds include nitrite, nitrate, ammonia, carbonate, acetate, and formate • Following soil neutralization, the reaction products will be D 7 0 decomposed via multiple pathways including biodegradation 0 2 6 0 M 2 0 Initial Alkaline Hydrolysis Products D 7 0 0 2 6 0 M 2 0 Study Setup and Method • The most effective alkaline hydrolysis reagent is dependent on site-specific soil conditions • Soil samples were collected from areas of known contamination at TNT Area C of PBOW • Another important factor in reagent selection is cost • Alkaline reagents used in the study included: – Caustic soda – Calcium oxide – Sodium carbonate – Portland cement – Lime kiln dust D 7 0 0 – Bed ash 2 6 0 M 2 0