Monitoring
and Control of an Adsorption System Using
Electrical Properties of the Adsorbent for Organic Compound Abatement
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Abstract
Adsorption
systems typically need gas and temperature sensors to
monitor their adsorption/regeneration cycles to separate gases from
gas streams. Activated carbon fiber cloth (ACFC)–electrothermal
swing adsorption (ESA) is an adsorption system that has the potential
to be controlled with the electrical properties of the adsorbent and
is studied here to monitor and control the adsorption/regeneration
cycles without the use of gas and temperature sensors and to <i>predict</i> breakthrough before it occurs. The ACFC’s
electrical resistance was characterized on the basis of the amount
of adsorbed organic gas/vapor and the adsorbent temperature. These
relationships were then used to develop control logic to monitor and
control ESA cycles on the basis of measured resistance and applied
power values. Continuous sets of adsorption and regeneration cycles
were performed sequentially entirely on the basis of remote electrical
measurements and achieved ≥95% capture efficiency at inlet
concentrations of 2000 and 4000 ppm<sub>v</sub> for isobutane, acetone,
and toluene in dry and elevated relative humidity gas streams, demonstrating
a novel cyclic ESA system that does not require gas or temperature
sensors. This contribution is important because it reduces the cost
and simplifies the system, predicts breakthrough before its occurrence,
and reduces emissions to the atmosphere