Title of article
Isotope dilution analysis of polychlorinated biphenyls (PCBs) in transformer oil and global commercial PCB formulations by high resolution gas chromatography–high resolution mass spectrometry
Author/Authors
Takumi Takasuga، نويسنده , , Kurunthachalam Senthilkumar، نويسنده , , Tohru Matsumura، نويسنده , , Ken Shiozaki، نويسنده , , Shin-ichi Sakai، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
16
From page
469
To page
484
Abstract
Special polychlorinated biphenyls (PCBs) standards (native and isotope labeled) were analyzed by isotope dilution method using HRGC–HRMS. Multiple analysis of special PCBs standards by three different laboratories produced the relative response factors (RRFs) and relative standard deviations (RSDs %) was in the average of 0.979 and 3.86, respectively. Additionally, inter-laboratory analysis of various forms of transformer oil revealed the PCBs concentrations were in the following order; PCBs fortified transformer oil (940–1300 ng/g) > PCB polluted transformer oil (490–680 ng/g) > chemically degraded-transformer oil (480–490 ng/g) and PCBs free oil (ND-17 ng/g). Chemical degradation resulted in an order of magnitude decrease in the PCB concentrations. Specifically, higher chlorinated PCBs degraded into lower chlorinated PCBs. Also, composition of PCBs have been determined in PCB formulations from Japan (Kanechlor), Germany (Clophen), USA (Aroclor), Russia (Sovol) and Poland (Chlorofen). Major PCBs (24-PCB congeners) contributed 54–67%, 55–68%, 16–69%, 71% and 72% in Kanechlor, Clophen, Aroclor, Sovol and Chlorofen, respectively to total PCBs. The homologue pattern of Kanechlor, Aroclor and Clophen in technical fromulation was similar (e.g., Kanechlor-300 resembled to those of Clophen A-30 and Aroclor-1242). Furthermore, congener-specific distributions of major PCBs/dioxin-like PCBs and toxic equivalency quantities (TEQ) were calculated. Based on our tentative assumption calculations, cumulative production of five different technical PCB formulations, WHO–TEQ emission was estimated to be approximately 16.05 tons.
Keywords
Isotope dilution technique , HRGC–HRMS , PCBs , Transformer oil , Special calibration standard mixture , CommercialPCB formulations , Chlophen , Sovol , Aroclor , Kanechlor , Chlorofen
Journal title
Chemosphere
Serial Year
2006
Journal title
Chemosphere
Record number
738475
Link To Document