skip navigation

LIBRARY

Abstract Database

Register for Latest Research

Stay Informed
Register with NCJRS to receive NCJRS's biweekly e-newsletter JUSTINFO and additional periodic emails from NCJRS and the NCJRS federal sponsors that highlight the latest research published or sponsored by the Office of Justice Programs.

NCJRS Abstract

To download this abstract, check the box next to the NCJ number then click the "Back To Search Results" link. Then, click the "Download" button on the Search Results page. Also see the Obtain Documents page for direction on how to access resources online, via mail, through interlibrary loans, or in a local library.

 

NCJ Number: 250468 Find in a Library
Title: Degraded Ignitable Liquids Database: An Applied Study of Weathering and Bacterial Degradation on the Chromatographic Patterns of ASTM E 1618 Ignitable Liquid Classes
Author(s): Michael E. Sigman; Mary Williams
Date Published: December 2016
Page Count: 105
Sponsoring Agency: National Institute of Justice (NIJ)
Washington, DC 20531
US Dept of Justice NIJ Pub
Washington, DC 20531
Grant Number: 2011-DN-BX-K539
Sale Source: US Dept of Justice NIJ Pub
810 Seventh Street, NW
Washington, DC 20531
United States of America
Document: PDF
Type: Program/Project Description; Report (Grant Sponsored); Report (Study/Research); Research (Applied/Empirical)
Format: Document; Document (Online)
Language: English
Country: United States of America
Annotation: This study examined the effects of weathering and biological degradation on ignitable liquids from each of the ASTM E1618 designated classes.
Abstract: Each of the weathered and degraded samples was added as a new record in the Ignitable Liquids Reference Collection (ILRC) database. The ILRC database was modified to link all associated records from weathering and degradation of the same ignitable liquid. The data from all of the samples were reviewed by the ILRC Committee and evaluated regarding the potential impacts of weathering and biological degradation on the interpretation of fire debris data. A “Best Practices” statement was prepared by the ILRC Committee and placed on the ILRC database web site. This statement will inform forensic practice and policy in laboratories that conduct fire debris analysis The evaporation rates were also modeled as a function of the fraction weathered and found to follow first-order kinetic profiles. The natural logarithm of the fitted rate constants were found to exhibit varying degrees of linearity as a function of retention index. The kinetic analysis is a preliminary investigation that may provide direction for future attempts to implement a digital weathering algorithm tht would aid fire debris analysis in predicting, a prioiri, the chromatographic profiles of weathered ignitable liquids. The study’s methodology involved the weathering of 50 ignitable liquids in the ILRC database by 0, 0.25, .5, 0.75, 0.9, and 0.95 fractions of the original volume. The same liquids were biologically degraded on potting soil for 0, 7, 14, and 21 days. 33 figures, 22 tables, 42 references, and appended list of ignitable liquids in the study, “Best Practices,” biologically degraded samples in the Ignitable Liquids Database, and example calculation of TPR, FPR, and accuracy for AR from table 11
Main Term(s): Forensics/Forensic Sciences
Index Term(s): Arson investigations; Crime Scene Investigation; Evidence; Evidence identification and analysis; fire investigation; National Institute of Justice (NIJ); NIJ final report
To cite this abstract, use the following link:
http://www.ncjrs.gov/App/publications/abstract.aspx?ID=272629

*A link to the full-text document is provided whenever possible. For documents not available online, a link to the publisher's website is provided. Tell us how you use the NCJRS Library and Abstracts Database - send us your feedback.