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Lumped-Parameter Response Time Models for Pneumatic Circuit Dynamics

Andrew A. Stanley, Amirhossein Amini, Casey C. Glick, Nathan S. Usevitch, Yiğit Mengüç, Sean Keller

2020Journal of Dynamic Systems Measurement and Control20 citationsDOI

Abstract

Abstract Resistor–capacitor (RC) response time models for pressurizing and depressurizing a pneumatic capacitor (mass accumulator) through a resistor (flow restriction) comprise a framework to systematically analyze complex fluidic circuits. A model for pneumatic resistance is derived from a combination of fundamental fluid mechanics and experimental results. Models describing compressible fluid capacitance are derived from thermodynamic first principles and validated experimentally. The models are combined to derive the ordinary differential equations that describe the RC dynamics. These equations are solved analytically for rigid capacitors and numerically for deformable capacitors to generate pressure response curves as a function of time. The dynamic pressurization and depressurization response times to reach 63.2% (or 1−e−1) of exponential decay are validated in simple pneumatic circuits with combinations of flow restrictions ranging from 100 μm to 1 mm in diameter, source pressures ranging from 5 to 200 kPa, and capacitor volumes of 0.5 to 16 mL. Our RC models predict the response times, which range from a few milliseconds to multiple seconds depending on the combination, with a coefficient of determination of r2=0.983. The utility of the models is demonstrated in a multicomponent fluidic circuit to find the optimal diameter of tubing between a three-way electromechanical valve and a pneumatic capacitor to minimize the response time for the changing pressure in the capacitor. These lumped-parameter models represent foundational blocks upon which timing models of pneumatic circuits can be built for a variety of applications from soft robotics and industrial automation to high-speed microfluidics.

Topics & Concepts

CapacitorControl theory (sociology)ResistorElectronic circuitMechanicsCapacitanceNonlinear systemComputer scienceEngineeringPhysicsElectrical engineeringVoltageControl (management)Quantum mechanicsElectrodeArtificial intelligenceMicrofluidic and Capillary Electrophoresis ApplicationsElectrohydrodynamics and Fluid DynamicsAnalytical Chemistry and Sensors
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