Degradation of trans-chlordane using elemental iron

Dechlorination of chlordane by reductive dechlorination using elemental iron was studied. Batch experiments in small vials were performed to test the performance of elemental iron to dechlorinate chlordane. Different reacting conditions were tested in four different sets of experimental runs. The fi...

Full description

Saved in:
Bibliographic Details
Main Authors: Auresenia, Joseph L., Moradas, Gerly, Gallardo, Susan M., Guieysse, Benoit
Format: text
Published: Animo Repository 2005
Subjects:
Online Access:https://animorepository.dlsu.edu.ph/faculty_research/11974
Tags: Add Tag
No Tags, Be the first to tag this record!
Institution: De La Salle University
id oai:animorepository.dlsu.edu.ph:faculty_research-14096
record_format eprints
spelling oai:animorepository.dlsu.edu.ph:faculty_research-140962024-03-19T02:46:06Z Degradation of trans-chlordane using elemental iron Auresenia, Joseph L. Moradas, Gerly Gallardo, Susan M. Guieysse, Benoit Dechlorination of chlordane by reductive dechlorination using elemental iron was studied. Batch experiments in small vials were performed to test the performance of elemental iron to dechlorinate chlordane. Different reacting conditions were tested in four different sets of experimental runs. The first set of experimental runs determines the effect of buffer addition; the second set determines the effect of acidification and addition of deoxygenating agent. The third set determines the effect of iron concentration and addition of surfactants and the fourth set determines the effect of different types of surfactants. It is found that with elemental iron only, chlordance concentration decrease was negligible. Addition of buffers resulted in 10 to 20% reduction in chlordance concentration. When acidification to pH 2 was done the reduction was increased to 40%. Addition of deoxygenating agent did not improve the reduction percentage. Addition of surfactants together with acidification increased the reduction of chlordane concentration to more that 90% in 24 hrs and to around 98% in 48 hrs. The reduction in chlordane concentration was accompanied in the increase of chloride concentration. Based on the chloride ion amount computed from lost chloradane, the dechlorination products was also monitored using GC-MS. It was found the major dechlorination products were organic molecules with 3 to 7 chloride atoms. Highly chlorinated product peaks decreased and slightly chlorinated product peaks increased when the reaction time was extend to 48 hrs/ This showed that reductive dechlorination was the process responsible for the loss in chlordane. 2005-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/11974 Faculty Research Work Animo Repository Chlordan Surface active agents Dechlorination Chemical Engineering
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
topic Chlordan
Surface active agents
Dechlorination
Chemical Engineering
spellingShingle Chlordan
Surface active agents
Dechlorination
Chemical Engineering
Auresenia, Joseph L.
Moradas, Gerly
Gallardo, Susan M.
Guieysse, Benoit
Degradation of trans-chlordane using elemental iron
description Dechlorination of chlordane by reductive dechlorination using elemental iron was studied. Batch experiments in small vials were performed to test the performance of elemental iron to dechlorinate chlordane. Different reacting conditions were tested in four different sets of experimental runs. The first set of experimental runs determines the effect of buffer addition; the second set determines the effect of acidification and addition of deoxygenating agent. The third set determines the effect of iron concentration and addition of surfactants and the fourth set determines the effect of different types of surfactants. It is found that with elemental iron only, chlordance concentration decrease was negligible. Addition of buffers resulted in 10 to 20% reduction in chlordance concentration. When acidification to pH 2 was done the reduction was increased to 40%. Addition of deoxygenating agent did not improve the reduction percentage. Addition of surfactants together with acidification increased the reduction of chlordane concentration to more that 90% in 24 hrs and to around 98% in 48 hrs. The reduction in chlordane concentration was accompanied in the increase of chloride concentration. Based on the chloride ion amount computed from lost chloradane, the dechlorination products was also monitored using GC-MS. It was found the major dechlorination products were organic molecules with 3 to 7 chloride atoms. Highly chlorinated product peaks decreased and slightly chlorinated product peaks increased when the reaction time was extend to 48 hrs/ This showed that reductive dechlorination was the process responsible for the loss in chlordane.
format text
author Auresenia, Joseph L.
Moradas, Gerly
Gallardo, Susan M.
Guieysse, Benoit
author_facet Auresenia, Joseph L.
Moradas, Gerly
Gallardo, Susan M.
Guieysse, Benoit
author_sort Auresenia, Joseph L.
title Degradation of trans-chlordane using elemental iron
title_short Degradation of trans-chlordane using elemental iron
title_full Degradation of trans-chlordane using elemental iron
title_fullStr Degradation of trans-chlordane using elemental iron
title_full_unstemmed Degradation of trans-chlordane using elemental iron
title_sort degradation of trans-chlordane using elemental iron
publisher Animo Repository
publishDate 2005
url https://animorepository.dlsu.edu.ph/faculty_research/11974
_version_ 1800918894630666240