Mechanism and Rate of Thermal Decomposition of Hexachlorocyclopentadiene and Its Importance in PCDD/F Formation from the Combustion of Cyclodiene Pesticides

Dharmarathne, N. K., Mackie, J. C., Kennedy, E. M., & Stockenhuber, M.

The Journal of Physical Chemistry A121.31 (2017): 5871-5883.

Thermal decomposition of hexachlorocyclopentadiene (HCCP) has been studied in inert gas and under oxidative conditions in a silica flow reactor at a residence time of 5.0 s between 690 and 923 K and 1 atm pressure. Pyrolysis was initiated by Cl bond fission to form pentachlorocyclopentadienyl radical; two such radicals then combined to undergo a series of intramolecular rearrangements and Cl fissions, producing principally octachloronaphthalene (8ClNP) and Cl2. This process has been studied by quantum chemical calculation, and a reaction potential energy surface has been developed. The rate constant of initial Cl atom fission has been calculated by canonical variational transition state theory as k = 1.45 × 1015 exp (-222 ± 9 kJ mol-1/RT) s-1 between 500 and 2000 K. A minimal kinetic model was developed to model the decomposition and major products. Oxidative decomposition was studied in nitrogen with O2 contents of 1, 6, 12, and 20 mol %. Increasing O2 to 6-8% increased the rate of decomposition of HCCP and decreased the yield of 8ClNP. Above 823 K, hexachlorobenzene (HCB) and CO became major products. The oxidative reaction has also been studied quantum chemically. At high O2 content (>∼10%), the rate of decomposition of HCCP declined as did yields of 8ClNP and HCB, but CO yields increased.

Mechanism-and-Rate-of-Thermal-Decomposition-of-Hexachlorocyclopentadiene-and-Its-Importance-in-PCDD-F-Formation-from-the-Combustion-of-Cyclodiene-Pesticides

Products Used in this Publication

Hexachlorocyclopentadiene

Related Products

Catalog NumberCASProduct NamePrice
B0001-05317710236-58-5Seleno-L-cysteineInquiry
B0001-1498097161-73-1Thiocholine iodideInquiry
B0001-16063111096-26-7ErythropoietinInquiry
B0001-186805203787-91-1Salcaprozate sodium, 99%Inquiry
B0001-3946391341-23-7Nicotinamide Riboside (Contain ~80% food grade dextrin as stabilizer)Inquiry