ISBN-10:
1439875987
ISBN-13:
9781439875988
Pub. Date:
09/28/2012
Publisher:
Taylor & Francis
Scientific Protocols for Fire Investigation, Second Edition / Edition 2

Scientific Protocols for Fire Investigation, Second Edition / Edition 2

by John J. Lentini

Hardcover

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Product Details

ISBN-13: 9781439875988
Publisher: Taylor & Francis
Publication date: 09/28/2012
Series: Protocols in Forensic Science Series , #5
Edition description: Revised
Pages: 646
Product dimensions: 7.10(w) x 10.30(h) x 3.60(d)

About the Author

John J. Lentini has been at the center of most of the important developments in fire investigation in the past 30 years. He began his career at the Georgia Bureau of Investigation Crime Laboratory in 1974. He has been at the center of the standardization of both laboratory and field investigations of fires. As co-chair of the International Association of Arson Investigators (IAAI) Forensic Science Committee, he was the principal author of the first laboratory standards published by the IAAI in 1988. He was the first civilian elected to the ABC Board of Directors and among the first group of individuals certified by the ABC as Fellows in fire debris analysis.

He has been a contributor to the development of National Fire Protection Association (NFPA) 921, Guide for Fire and Explosion Investigations, and a member of the NFPA’s Technical Committee on Fire Investigations since 1996. His study of the Oakland Hills fire in 1991 resulted in a rethinking of much of the conventional wisdom in fire investigation, and his laboratory work has resulted in research papers that are standard works in the field. He is a frequent invited speaker on the subject of the standard of care in fire investigation and laboratory analysis of fire debris, as well as on the progress of standardization in the forensic sciences.

Table of Contents

Fire and Science
Introduction
Argument versus Experiment
Fire and the Enlightenment
Scientific Approach to Fire Investigation
Modern Fire Analysis
NFPA 921
NFPA 1033
CFITrainer.net
Science, Law, and Law Enforcement
Chemistry and Physics of Combustion
Fire and Energy
Basic Chemistry
States of Matter
Behavior of Gases
Stoichiometry and Flammable Limits
Behavior of Liquids
Behavior of Solids
Fire Dynamics and Fire Pattern Development
Introduction
Ignition
Self-Heating and Spontaneous Ignition
Chemical Ignition
Smoldering Ignition
Flames
Flammability
Compartment Fires
Plume Pattern Development
Ventilation Pattern Development
Penetrations through Floors
Horizons, Movement, and Intensity Patterns
Clean Burn
Electrical Patterns
Fire Modeling
Fire Investigation Procedures
Recognize the Need
Presumption of Accidental Cause: The Null Hypothesis
Negative Corpus Methodology
Planning the Investigation
Initial Survey: Safety First
Documentation
Reconstruction
Inventory
Avoiding Spoliation
Origin Determination
Evidence Collection and Preservation
Fatal Fires
Hypothesis Development and Testing
Reporting Procedure
Record Keeping
Analysis of Ignitable Liquid Residues
Evolution of Separation Techniques
Evolution of Analytical Techniques
Evolution of Standard Methods
Isolating the Residue
Initial Sample Evaluation
ILR Isolation Method Selection
Solvent Selection
Internal Standards
Advantages and Disadvantages of Isolation Methods

Analyzing Isolated ILR
Criteria for Identification
Improving Sensitivity
Estimating the Degree of Evaporation
Identity of Source

Reporting Procedures
Record Keeping
Quality Assurance
Evaluation of Ignition Sources
Joint Examinations of Physical Evidence
Appliances and Electrical Components
Electronic Device Reliability and Failure Modes
Kitchen Ranges
Coffee Makers
Deep Fat Fryers
Space Heating Appliances
Water Heaters
Clothes Dryers
Fluorescent Lights
Recessed Lights
Exhaust Fans
Service Panels
Oxygen Enrichment Devices

Testing of Ignition Scenarios
Spontaneous Ignition Tests
Following Up
Thirty Fire Scene Scenarios
Arson
Arson Fire #1: The Fictitious Burglar
Arson Fire #2: Unexplained Accelerants
Arson Fire #3: Unpleasant Neighbors
Arson Fire #4: Accidental Causes Eliminated

Dryer Fires
Dryer Fire #1: Misrouted Power Cord
Dryer Fire #2: Cross-Threaded Connection
Dryer Fire #3: Spliced Power Cord
Dryer Fire #4: Internal Power Wire Comes Loose

Electrical Fires
Electrical Fire #1: Energized Neutral
Electrical Fire #2: Worn-Out Outlet
Electrical Fire #3: Makeshift Extension Cord
Electrical Fire #4: Failed Transformer
Electrical Fire #5: Overdriven Staple

Fluorescent Light Fires
Fluorescent Light Fire #1: Ballast Failure
Fluorescent Light Fire #2: Overheated Lamp Holder

Gas Fires
Gas Fire #1: Leak in Corrugated Stainless Steel Tubing Line (and Failure to Inspect)
Gas Fire #2: Leak at New Flare Fitting
Gas Fire #3: Overfilled Cylinders
Gas Fire #4: New Installation, Open Line

Heater Fires
Heater Fire #1: Combustibles on Floor Furnace
Heater Fire #2: Portable Heater Ignites Cardboard
Heater Fire #3: Contents Stacked in Front of Heater

Industrial Fires
Industrial Fire #1: Machine Shop Spray Booth
Industrial Fire #2: Waste Accumulations on Roof
Industrial Fire #3: Design Flaw in Printing Machine
Industrial Fire #4: Hydraulic Fluid Fire
Industrial Fire #5: Another Chicken Story

Lightning Fires
Lightning Fire #1
Lightning Fire #2

Water Heaters
Water Heater Fire #1
The Mythology of Arson Investigation
Development and Promulgation of Myths
Alligatoring
Crazed Glass
Depth and Location of Char
Lines of Demarcation
Sagged Furniture Springs
Spalling
Fire Load
Low Burning and Holes in the Floor
Angle of V
Time and Temperature
Sources of Error in Fire Investigation
Introduction
Overlooking Critical Data
Misinterpreting Critical Data
Misinterpreting Irrelevant Data
Ignoring Inconsistent Data
Two-Dimensional Thinking
Poor Communication
Faulty Chemistry or Engineering
Evaluating Allegations of Arson
Is This Arson Call Based Entirely on the Appearance of the Burned Floor in a Fully Involved Compartment?
Is This Arson Call Based on "Low Burning," OR Crazed Glass, OR Spalling, OR "Shiny Alligatoring," OR a "Narrow V-Pattern," OR "Melted/Annealed Metal?"
Is This Arson Call Based on an Unconfirmed Canine Alert?
Is This Arson Call Based on a Fire that "Burned Hotter than Normal" or "Faster than Normal?"
Do Neutral Eyewitnesses Place the Origin of the Fire Somewhere Other than Where the Arson Investigator Says It Was Set?
Is This Arson Call Based Entirely or Largely on a Mathematical Equation or a Computer Model?

Investigations Gone Wrong
State of Georgia v. Weldon Wayne Carr
Maynard Clark v. Auto Owners Insurance Company
Error Analysis
United States v. Kenneth and Ricky Daniels and Daniels v. Liberty Mutual, et al.
Commonwealth of Pennsylvania v. Louis DiNicola
State of Arizona v. Ray Girdler
Hanley v. Prudential Insurance
Howell Business Forms v. Vik Brothers Insurance Group
Eve and Manson Johnson v. Florida Farm Bureau
State of Georgia v. John Metcalf and Kimberly Post
State of North Carolina v. Jermaine Antoine Smith
United States v. Michael Weber
Stark County Port Authority v. Railway Properties, Ltd.
State of Louisiana v. Amanda Gutweiler

The Professional Practice of Fire Investigation
Introduction
Identifying Your Stakeholders
Doing Consistent Work
Business Practices
Pro Bono Work
Serving as Expert Witness
Advocacy
Discovery
Courtroom Testimony

Index

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