Reaction sequences in simulated neutralized current acid waste slurry during processing with formic acid.

摘要

The Hanford Waste Vitrification Plant (HWVP) is being designed for the Department of Energy to immobilize high-level and transuranic wastes as glass for permanent disposal. Pacific Northwest Laboratory is supporting the HWVP design activities by conducting laboratory-scale studies using a HWVP simulated waste slurry. Conditions which affect the slurry processing chemistry were evaluated in terms of offgas composition and peak generation rate and changes in slurry composition. A standard offgas profile defined in terms of three reaction phases, decomposition of H(sub 2)CO(sub 3), destruction of NO(sub 2)(sup (minus)), and production of H(sub 2) and NH(sub 3) was used as a baseline against which changes were evaluated. The test variables include nitrite concentration, acid neutralization capacity, temperature, and formic acid addition rate. Results to date indicate that pH is an important parameter influencing the N(sub 2)O/NO(sub x) generation ratio; nitrite can both inhibit and activate rhodium as a catalyst for formic acid decomposition to CO(sub 2) and H(sub 2); and a separate reduced metal phase forms in the reducing environment. These data are being compiled to provide a basis for predicting the HWVP feed processing chemistry as a function of feed composition and operation variables, recommending criteria for chemical adjustments, and providing guidelines with respect to important control parameters to consider during routine and upset plant operation.