Microalgal Cultivation Characteristics Using Commercially Available Air-cushion Packaging Material as a Photobioreactor

Clifford R. Merz, Neha Arora, Michael Welch, Enlin Lo, George P. Philippidis

Research output: Contribution to journalArticlepeer-review

Abstract

Air-cushion (AC) packaging has become widely used worldwide. ACs are air-filled, dual plastic packaging solutions commonly found surrounding and protecting items of value within shipping enclosures during transit. Herein, we report on a laboratory assessment employing ACs as a microalgal photobioreactor (PBR). Such a PBR inherently addresses many of the operational issues typically encountered with open raceway ponds and closed photobioreactors, such as evaporative water loss, external contamination, and predation. Using half-filled ACs, the performance of microalgal species Chlorella vulgaris, Nannochloropsis oculata , and Cyclotella cryptica (diatom) was examined and the ash-free dry cell weight and overall biomass productivity determined to be 2.39 g/L and 298.55 mg/L/day for N. oculata , 0.85 g/L and 141.36 mg/L/day for C. vulgaris, and 0.67 g/L and 96.08 mg/L/day for C. cryptica. Furthermore, maximum lipid productivity of 25.54 mg/L/day AFDCW and carbohydrate productivity of 53.69 mg/L/day AFDCW were achieved by C. cryptica , while maximum protein productivity of 247.42 mg/L/day AFDCW was attained by N. oculata . Data from this work will be useful in determining the applicability and life-cycle profile of repurposed and reused ACs as potential microalgal photobioreactors depending upon the end product of interest, scale utilized, and production costs.

Original languageAmerican English
JournalScientific Reports
Volume13
DOIs
StatePublished - Jan 1 2023

Disciplines

  • Life Sciences

Cite this