Ongoing advances in arson detection tools and techniques increase the importance of scientific evidence in related court proceedings. In order to assemble an airtight case, investigators and forensic scientists need a resource that assists them in properly conducting the chemical analysis and interpretation of physical evidence found at scenes of suspected arson. Analysis and Interpretation of Fire Scene
Evidence introduces the techniques that determine the presence of ignitable liquid residues (ILRs) at fire scenes. It bridges the disciplines of investigation and forensic chemistry, enabling effective communication during critical periods
of evidence detection, collection, packaging, and transport.
The initial chapters are written from an investigator's perspective, allowing forensic specialists to understand fire dynamics, ignition, heat transfer, and investigations. Later chapters include a comparison of the use of canines versus new detection techniques, and an examination of laboratory facilities, equipment, and procedures that are essential to organizing a new lab or upgrading an existing one. By detailing the methods used to identify potential evidence at the scene of suspected arson fires, this volume also benefits attorneys and judges in preparing for prosecution and defense of arson cases.
Fire Dynamics. Fire Scene Investigation: An Introduction for Chemists. Detection of Ignitable Liquid Residues in Fire Scenes; Accelerant Detection Canine (ADC) Teams and other Field Tests. Essential Tools for the Analytical Laboratory; Facilities, Equipment and Standard Operating Procedures. Analytical Methods for the Detection and Characterization of Ignitable Liquid Residues from Fire Debris. The ASTM Methods for the Analysis of Fire Debris Evidence; Isolation, Chemical Analysis and Classification. The Interpretation of Data Generated from Fire Debris Examination; Report Writing and Testimony. New Developments and Quality Assurance in Fire Debris Analysis.