A preliminary implementation of metabolic-based pH control to reduce CO2 usage in outdoor flat-panel photobioreactor cultivation of Nannochloropsis oceanica microalgae

Wang, Jun; Rosov, Theresa; Wensel, Pierre; McGowen, John; Curtis, Wayne R.

doi:10.1016/j.algal.2016.07.001

Title: A preliminary implementation of metabolic-based pH control to reduce CO₂ usage in outdoor flat-panel photobioreactor cultivation of Nannochloropsis oceanica microalgae

Journal Article · Sun Jul 10 00:00:00 EDT 2016 · Algal Research

DOI:https://doi.org/10.1016/j.algal.2016.07.001· OSTI ID:1785540

Wang, Jun ^[1]; Rosov, Theresa ^[2]; Wensel, Pierre ^[2]; McGowen, John ^[2];

^[1]

Pennsylvania State University, University Park, PA (United States)
Arizona State University, Mesa, AZ (United States)

A crucial challenge associated with high-density, commercial-scale, outdoor microalgal cultivation is maintaining pH stability without excessive use of CO₂ buffering. This includes a media-dependent, intracellular metabolic proton imbalance leading to the alkalization or acidification of growth media that results when algae consume, respectively, nitrate or ammonium ions. Feeding these two nitrogen sources can theoretically achieve balanced proton metabolism as well as pH control that is economically more favorable as compared to CO₂ buffering or acid/base addition. To accomplish this, a fed-batch nutrient feeding strategy must be adopted as a component of a model-based pH control system, particularly in the case of ammonium preference. This work represents a preliminary study of the challenges of implementing a nitrogen metabolism based open-loop pH control strategy in the challenging environment of an outdoor photobioreactor at the DOE-ATP³ testbed facility in Mesa, Arizona during the high solar insolation period of summer 2015. The approach was limited to twice daily fed-batch addition while accounting for ammonium-N preference in a background of nitrate-based algae growth media. Despite these limitations, growth achieved for a photobioreactor operated based on predicted metabolic nitrogen demand (PND) was comparable to ‘CO₂-on-demand’ (CoD) for pH control. PND reduced CO₂ usage to b10% of CoD control, where the reduced buffering resulted in much greater pH fluctuations due to daily variations in light availability, and a much lower and more consistent media alkalinity (5.73–5.79 mEq/L) as compared to the CoD control (6.51–8.49 mEq/L). While this effort illustrates the utility of feed-forward model-based control, it further illustrates the need for far more sophisticated ‘real time’ monitoring and modeling to accommodate the dynamic outdoor conditions. In conclusion, a need for improved analytics for accurate closure of nitrogen mass balance is also indicated.

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Research Organization:: Arizona State University, Mesa, AZ (United States); Pennsylvania State Univ., University Park, PA (United States)

Sponsoring Organization:: USDOE Office of Energy Efficiency and Renewable Energy (EERE), Transportation Office. Bioenergy Technologies Office; Algae Testbed Public-Private Partnership (ATP3); USDOE

Grant/Contract Number:: EE0005996

OSTI ID:: 1785540

Alternate ID(s):: OSTI ID: 1396605

Journal Information:: Algal Research, Vol. 18; ISSN 2211-9264

Publisher:: ElsevierCopyright Statement

Country of Publication:: United States

Language:: English

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Cited by: 6 works

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References (12)

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09 BIOMASS FUELS
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nannochloropsis oceanic
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Title: A preliminary implementation of metabolic-based pH control to reduce CO2 usage in outdoor flat-panel photobioreactor cultivation of Nannochloropsis oceanica microalgae

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Title: A preliminary implementation of metabolic-based pH control to reduce CO₂ usage in outdoor flat-panel photobioreactor cultivation of Nannochloropsis oceanica microalgae