Effects of Ionizing Radiation on Aqueous Solutions of the Detergent Al!tylbenzenesulfonate and Several Lower Homologs

Author: Cohen, Jules Bernard

Year: 1965

Degree: Dissertation (Ph.D.)

Advisors: Samples, William R.; McKee, Jack E.

Committee Member: Unknown, Unknown

Option: Civil Engineering

DOI: 10.7907/67ES-AK62

Abstract

A study was conducted of the degradation of benzene-, p-toluene-, and alkylbenzenesulfonates under the action of ionizing radiation from a 3400 curie, Cobalt-60 irradiator.

Effects of varying solute concentrations, pH, and dissolved oxygen concentrations were observed as functions of the energy absorbed by the solutions. The rates of oxygen depletion and the rates of hydrogen peroxide, enol, and sulfate production were followed by irradiating the solutions for varying periods of time.

Results of the irradiations indicate that, in aerated solutions, the major mode of degradation is by desulfonation of the molecule. Degradation was accompanied by significant losses in oxygen, possibly a result of direct oxidation of the solute by radiation, rather than by free radical reactions. Enols were also found to occur, but at very low concentrations. The product formed as a result of desulfonation of benzenesulfonic acid appeared to be quinonoid rather than phenolic in nature.

In deaerated solutions, enol yields were found to decrease, while sulfates were not observed. A more rapid decrease in the ultraviolet absorption peaks of these homologs in deaerated solutions was attributed to the formation of dimers.

The study indicates that the use of radiation, as a water or wastewater treatment process for degrading organic compounds, would necessarily be limited to aerated solutions in situations where the large losses of oxygen would not be detrimental

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