Guy Babbitt scite author profile

Abstract-Microalgae have the potential to produce enough biofuels to meet the current US fuel demands. In order to achieve this potential, photobioreactors (PBRs) need to be developed that are efficient, scalable, and affordable. Models are an analytical tool that can be used to evaluate various PBRs. In this article, a dynamic model is developed for growing microalgae in a vertical flat panel photobioreactor (PBR) that may be used to measure PBR efficiency for various architectures independent of scale. The growth model is used to estimate the microalgae growth and byproduct production and consumption as a function of incident light. A feed-forward controller is developed that uses the estimated amount of CO2 consumed to determine the amount of additional CO2 to add to the system during photosynthesis. An overall controller structure that uses both feed-forward and feedback control is presented for growing microalgae inside a PBR.

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DigitalAir™ Camless FVVA System – Part 1, Valve Train Design, Capability and Performance

Babbitt¹,

Rogers²,

Weyer³

et al. 2017

SAE Int. J. Engines

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Guy Babbitt

Design and Analysis of a Self-Refueling CNG Vehicle to Provide Home Refueling

Design and Control of a Two-stage Electro-hydraulic Valve Actuation System

Implementation details and test results for a transient engine dynamometer and hardware in the loop vehicle model

Microalgae growth modeling and control for a vertical flat panel photobioreactor

DigitalAir™ Camless FVVA System – Part 1, Valve Train Design, Capability and Performance

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