US EPA

4822540 

Journal Article 

Treatment of 1,2-dibromo-3-chloropropane and nitrate-contaminated water with zero-valent iron or hydrogen/palladium catalysts 

Siantar, DP; Schreier, CG; Chou, CS; Reinhard, M 

1996 

1 

Water Research
ISSN: 0043-1354
EISSN: 1879-2448 

30 

10 

2315-2322 

10.1016/0043-1354(96)00120-0 

WOS:A1996VT98000012 

The abilities of zero-valent iron powder and hydrogen with a palladium catalyst (H-2/Pd-alumina) to hydrodehalogenate 1,2-dibromo-3-chloropropane (DBCP) to propane under water treatment conditions (ambient temperature and circumneutral pH) were compared. DBCP reacted with iron powder (100-200 mesh, 36 g/l) in HERES-buffered water (pH = 7.0) with a tin of 2.5 min and in different groundwaters (pH = 8.2-8.7) with a t(1/2) ranging from 41-77 min. Dissolved O-2 and NO3- slowed the transformation, whereas sulfate and nitrite had little effect. Iron removed 60 mg/l of nitrate within 14 min with nitrite as an intermediate. In 75 mi groundwater containing 22.5 mg 1% Pd-alumina catalyst under 10% H-2 partial pressure, DBCP was transformed to propane within minutes. The rate in groundwater was slower by about 30% compared to Milli-Q(tm) water. SO42-, NO3-, Cl- or O-2 added to Milli-Q water only slightly inhibited DBCP transformation by H-2/Pd-alumina, while SO32- had a much stronger inhibitory affect. Copyright (C) 1996 Elsevier Science Ltd 

chlorinated hydrocarbons; DBCP (1,2-dibromo-3-chloropropane); nitrate; oxygen; hydrogen; iron metal; palladium catalyst; hydrodechlorination; dechlorination; reduction