Your search keyword '"Nichols JE"' showing total 2 results

1. Analysis of arson fire debris by low temperature dynamic headspace adsorption porous layer open tubular columns.

Author

Nichols JE, Harries ME, Lovestead TM, and Bruno TJ

Subjects

Adsorption, Cold Temperature, Firesetting Behavior, Gasoline analysis, Porosity, Solvents chemistry, Fires, Gas Chromatography-Mass Spectrometry, Waste Products analysis

Abstract

In this paper we present results of the application of PLOT-cryoadsorption (PLOT-cryo) to the analysis of ignitable liquids in fire debris. We tested ignitable liquids, broadly divided into fuels and solvents (although the majority of the results presented here were obtained with gasoline and diesel fuel) on three substrates: Douglas fir, oak plywood and Nylon carpet. We determined that PLOT-cryo allows the analyst to distinguish all of the ignitable liquids tested by use of a very rapid sampling protocol, and performs better (more recovered components, higher efficiency, lower elution solvent volumes) than a conventional purge and trap method. We also tested the effect of latency (the time period between applying the ignitable liquid and ignition), and we tested a variety of sampling times and a variety of PLOT capillary lengths. Reliable results can be obtained with sampling time periods as short as 3min, and on PLOT capillaries as short as 20cm. The variability of separate samples was also assessed, a study made possible by the high throughput nature of the PLOT-cryo method. We also determined that the method performs better than the conventional carbon strip method that is commonly used in fire debris analysis., (Published by Elsevier B.V.)

Published

2014

2. Method and apparatus for pyrolysis--porous layer open tubular column--cryoadsorption headspace sampling and analysis.

Author

Bruno TJ and Nichols JE

Subjects

Adsorption, Cold Temperature, Cosmetics analysis, Equipment Design, Explosive Agents analysis, Gases chemistry, Hot Temperature, Models, Chemical, Organic Chemicals analysis, Plasticizers analysis, Porosity, Triazines analysis, Chromatography, Gas instrumentation, Chromatography, Gas methods, Gases analysis

Abstract

In previous work, dynamic headspace vapor collection on short, porous layer open tubular (PLOT) capillary columns maintained at low temperature was introduced. In this paper, that metrology is extended with the introduction of a small in situ pyrolysis platform that provides for rapid heating and rapid vapor capture for a wide variety of samples. The new approach is referred to as pyro-PLOT-cryo. The pyrolysis platform is made from two small copper lead wires that hold a basket formed from small diameter, high resistance stainless steel or NiCr wire. The basket is formed to accept a small sample, the mass of which can typically range from 0.2 to 0.05 mg. The pyrolysis is performed by use of a resistor capacitor circuit of the type used in spot welders. We have provided examples of the application of this technique with the analysis of facial cosmetics, plastic explosives, organometallic gasoline additives, polymers, and in micro scale chemical reactions. Additional modifications and future work are also discussed., (Published by Elsevier B.V.)

Published

2013