Complete degradation of 2,2',6,6'-tetrachlorobiphenyl (PCB-54) in transform
er oil is achieved by ionizing radiation without degradation of the oil. ga
mma-Irradiation of transformer oil containing PCB-54 (0.27 mg/g) with a dos
e of 200 kGy results in complete (>99%) destruction of the PCB. Analysis of
samples irradiated with various doses demonstrated gradual degradation of
PCB-54 and successive formation and degradation of trichloro-, dichloro-, a
nd monochlorobiphenyl. The final products are mainly biphenyl and inorganic
chloride. The mechanism of reductive degradation is studied by pulse radio
lysis. The oil contains many aromatic hydrocarbons; the most abundant being
biphenyl, fluorene, and phenanthrene. Solvated electrons formed by irradia
tion of the oil react either with the PCB to lead to dechlorination or with
the aromatic hydrocarbons present in the oil to form radical anions. These
species are shown to transfer an electron to chlorinated biphenyls relativ
ely rapidly, leading to dechlorination. The rate constants for several su c
h reactions, determined in 2-propanol solutions, are in the range of 10(7)-
10(8) L mol(-1) s(-1). These rapid reactions explain why PCB can be dechlor
inated in oil despite the presence of aromatic hydrocarbons in the oil and
despite the formation of biphenyl as a radiolysis product that reacts rapid
ly with solvated electrons.