Design, Modeling, and Thermal Characterization of Temperature Gradient Gas Chromatography Micro-Columns

Schnepf, Parker David

31 July 2018

This thesis presents a thermal gradient gas chromatography (TGGC) system that is implemented on a micro-scale. The GC column is approximately 20 cm long and is fabricated out of silicon with 21 nickel thin-film heaters evenly placed along the length of the column. Computational heat transfer models using ANSYS Mechanical APDL predict heating and cooling rates up to 32,000 deg C/min and 3,600 deg C/min, respectively. These results are verified through testing an experimental silicon channel. A PI controller which uses resistance measurements to calculate thin-film temperature is used for obtaining dynamic thermal gradient control. This controller is shown to possess a characteristic rise time of approximately 0.3 seconds with less than 4% overshoot and precision to within less than a degree. These characteristics present this system as a highly favorable candidate for a micro-GC column with resolution similar to that of conventional GC.

Thermal Gradient Gas Chromatography

Metal Thin-Film

Feedback Control

Microfabrication

Computational Heat Transfer

Engineering

Gas Chromatography Micro-Chip with High Temperature Interface and Silk Screen Heaters

Vilorio, Carlos R.

11 August 2020

There has been substantial market demand for a portable Gas Chromatography (GC) system. Throughout the years, much progress has been made on fabricating a micro system that works as well as a benchtop system. Unfortunately, even though many substrates, channel types, channel widths, temperature control systems, and interface solutions have been attempted, existing versions of the micro-GC still fall short of the ideal. This thesis presents the design, fabrication, and testing of a silicon based micro-GC column that presents a solution for interfacing and heating of the chip. A polyimide resin is used to create a durable high temperature low thermal mass interface with the chip, while a silk screen method is demonstrated for easy printing of heaters. Chromatogram results are shown in both Temperature Program and Thermal Gradient runs.

Gas Chromatography

Thermal Gradient Gas Chromatography

Micro- Gas Chromatography

Interfacing with Gas Chromatography

Heaters on Gas Chromatography

Engineering

Thermal Gradient Characterization and Control in Micro-Fabricated Gas Chromatography Systems

Foster, Austin Richard

01 May 2019

In order to make gas chromatography (GC) more widely accessible, considerable effort has been made in developing miniaturized GC systems. Thermal gradient gas chromatograpy (TGGC), one of the heating methods used in GC, has recieved attention over the years due to it's ability to enhance analyte focusing. The present work seeks to develop high performance miniaturized GC systems by combining miniaturized GC technology with thermal gradient control methods, creating miniaturized thermal gradient gas chromatography (µTGGC) systems. To aid in this development a thermal control system was developed and shown to successfully control various µTGGC systems. DAQ functionality was also included which allowed for the recording of temperature and power data for use in modeling applications. Thermal models of the various µTGGC systems were developed and validated against the recorded experiemental data. Thermal models were also used to aid in decisions required for the development of new µTGGC system designs. The results from the thermal models were then used to calibrate and validate a stochastic GC transport model. This transport model was then used to evaluate the effect of thermal gradient shape on GC separation performance.

gas chromatography

micro-gas chromatography

thermal gradient gas chromatography

thermal control systems

CFD

thermal modeling

chromatographic modeling

Engineering

Mechanical Engineering