Controlling Light Intensity in Outdoor Photobioreactors

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Description
This thesis focused on the development of a system that can sense light intensity and then control a smart film to provide the optimal light intensity for cyanobacteria. The overarching goal of this project is to further the study of

This thesis focused on the development of a system that can sense light intensity and then control a smart film to provide the optimal light intensity for cyanobacteria. The overarching goal of this project is to further the study of biofuels as an alternative energy source by increasing growth rates. If more algae or cyanobacteria can be grown per day, then the cost to produce the biofuel will decrease. To achieve this goal, PDLC (polymer dispersed liquid crystal) film was selected to be controlled due to its unique properties. It can be controlled with electricity and has variable states, in other words, not restricted to simply on or off. It also blocks 80% ultraviolet light and reduces thermal heat gain by 40% which is an important consideration for outdoor growing situations. To control the film, a simple control system was created using an Arduino Uno, SainSmart 8 channel relay board, an inverter, and a power supply. A relay board was utilized to manage the 40 volts required by the PDLC film and protected the electronics on the Arduino Uno. To sense the light intensity, the Arduino Uno was connected to a photoresistor, which changes resistance with light intensity. A 15 day test of two flasks of Cyanobacteria Synechocycstis sp. 6803, one shaded by the PDLC film, and the other unshaded, yielded 65% difference in optical densities. Overall, the experiment showed promise for controlling light intensity for photobioreactors. Ideally, this research will help to optimize light intensities when growing cyanobacteria or algae outdoors or it will help to discover what an ideal light intensity is by allowing a researcher unprecedented control.
Date Created
2015-05
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