Design, Fabrication and performance evaluation of a photobioreactor for the cultivation of Chlorella vulgaris (Beijerinck)

Issue Date

8-2013

Abstract

A 21-L algal culture fee capacity externally-illuminated vertical-column draft-tube airlift photobioreactor was designed and fabricated for cultivating Chlorella vulgaris (Beijerinck), a microalgae that has a potential as substrate for biodiesel production. The glass photobioreactor was composed of the outer tube, draft tube and airduct. Vespa SF 201P compressor was used as aerators and eight 36W Philips cool white fluorescent lamps as light source. Performance evaluation and design modification of the photobioreactor were conducted to improve its efficiency through the installation of a more efficient sampling mechanism and manipulating the sparger system. Mixture of air with 2.25 % carbon dioxide was also infused infused into the reactor. Calibration of the optical density of the microagal culture at 425 nm and determination of the cell dry weight relationship were conducted. The experiment determined the growth curve and growth rate rate of C. vulgaris. The stationary phase was achieved after 10 d with a growth rate of 0.2537 dˉ¹ and a doubling time of 3.94 d. The data obtained in Run B (growth rate) were used as basis in the continuous operation of the photobioreactor. The feed rate computed was 3.855 L. dˉ¹. The optical density inside the reactor and in the harvest was monitored. Therefore, the externally-illuminated vertical column draft-tube airlift photobioreactor is suitable for a large-scale cultivation of C. vulgaris and can be a operated continuously for a minimum of 30 d through the careful monitoring of the flowerate.

Source or Periodical Title

Philippine Journal of Crop Science

ISSN

0115-463x

Volume

38

Issue

2

Page

21-29

Document Type

Article

Frequency

tri-quarterly

Physical Description

tables, pictures, graphs

Language

English

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