ISSN:
1432-0703
Source:
Springer Online Journal Archives 1860-2000
Topics:
Energy, Environment Protection, Nuclear Power Engineering
,
Medicine
Notes:
Abstract. The radioactivity on adding 14C-Hexachlorocyclopentadiene (Hex) to water (7 μg/L) decreased by 18% on Day 2 and by 31 to 55% by Day 42. On Day 42, the radioactivity remaining in water consisted of apolar (petroleum ether-extractable), polar (ethyl acetate-extractable), and hydrophilic hydrolysis products with Hex amounting to only 8% of the total radioactivity. The time for Hex to reach 50, 10, and 5% of its initial concentration was estimated to be about 4, 27, and 40 days, respectively. The hydrolysis rate constant compared to 4×103hr−1 as reported in literature. The apolar radioactivity (25% of total) consisted of Hex and a major product as judged by gas chromatography (GC). The polar products resolved into 10 and hydrophilics into 14 different compounds as examined by thin-layer chromatography. The photolysis of Hex in acetone occurred very rapidly (t1/2=〈1 day) with no trace of Hex after 15 days. Most of these products were more polar than Hex as examined by GC. These products on thin-layer chromatography (TLC) separated into two major zones. Further TLC of each of these zones showed products of one zone to resemble those of aqueous hydrolysis. The other zone represented apolar products which resolved into three peaks by HPLC, the major one of these appeared to have an empirical formula of C6Cl7O (m/e=408) as analyzed by GCMS. The 8-h photolysis products' mixture had an LT50 to goldfish Carassius auratus of 22 h compared to 15 h for Hex. The 96-h LT50 value of the 15-day photolysis products' mixture was 2,300 compared with 119 μg/L for Hex. Thus, Hex in water as well as on exposure to light breaks down to less toxic products.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/s002449900004
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