Unified Field Study 5 (UFS-5)
The Unified Field Studies (UFS), established by the Algae Testbed Public-Private Partnership (ATP3), produced data on the effect of environmental and process conditions on algal growth rates and algal composition. The goal of the fifth Unified Field Study (UFS-5), performed December 2014 to March 2015, was to generate a robust inter-testbed dataset in algal biomass and lipid productivity and yield for two algal strains (Nannochloropsis oceanica KA32 and Chlorella vulgaris LRB-AZ-1201) as a function of different regional, and environmental conditions among sites by controlling non-geographical-related variables including production systems, production process and protocols, system scale, and algae strain. This experiment also compared the effect on productivity of three harvests per week with multiple dilution rates vs. one harvest per week with one dilution rate.
For more information about the UFS experiments see the reference resources 0.0 UFS-1 Experiment OpenEI Wiki Page, 0.1 ATP3 OpenEI Wiki Page, 0.2 Report on the Use of ATP3 UFS Data below, and 0.3 ATP3 UFS Journal Article.
Citation Formats
TY - DATA
AB - The Unified Field Studies (UFS), established by the Algae Testbed Public-Private Partnership (ATP3), produced data on the effect of environmental and process conditions on algal growth rates and algal composition. The goal of the fifth Unified Field Study (UFS-5), performed December 2014 to March 2015, was to generate a robust inter-testbed dataset in algal biomass and lipid productivity and yield for two algal strains (Nannochloropsis oceanica KA32 and Chlorella vulgaris LRB-AZ-1201) as a function of different regional, and environmental conditions among sites by controlling non-geographical-related variables including production systems, production process and protocols, system scale, and algae strain. This experiment also compared the effect on productivity of three harvests per week with multiple dilution rates vs. one harvest per week with one dilution rate.
For more information about the UFS experiments see the reference resources 0.0 UFS-1 Experiment OpenEI Wiki Page, 0.1 ATP3 OpenEI Wiki Page, 0.2 Report on the Use of ATP3 UFS Data below, and 0.3 ATP3 UFS Journal Article.
AU - Wolfrum, Ed
A2 - Knoshaug, Eric
A3 - Laurens, Lieve
A4 - Harmon, Valerie
A5 - Dempster, Thomas
A6 - McGowan, John
A7 - Rosov, Theresa
A8 - Cardello, David
A9 - Arrowsmith, Sarah
A10 - Kempkes, Sarah
A11 - Bautista, Maria
A12 - Lundquist, Tryg
A13 - Crowe, Braden
A14 - Murawsky, Garrett
A15 - Nicolai, Eric
A16 - Rowe, Egan
A17 - Knurek, Emily
A18 - Javar, Reyna
A19 - Saracco Alvarez, Marcela
A20 - Schlosser, Steve
A21 - Riddle, Mary
A22 - Withstandley, Chris
A23 - Chen, Yongsheng
A24 - Van Ginkel, Steven
A25 - Igou, Thomas
A26 - Xu, Chunyan
A27 - Hu, Zixuan
DB - Open Energy Data Initiative (OEDI)
DP - Open EI | National Renewable Energy Laboratory
DO -
KW - energy
KW - power
KW - algae
KW - biomass
KW - ATP3
KW - UFS
KW - Unified Field Study
KW - algal growth
KW - pond
KW - strain
KW - algal testbed
KW - environmental conditions
KW - process conditions
KW - algal composition
KW - data
KW - algal biomass
KW - regional
KW - seasonal
KW - bioenergy
KW - biofuel
KW - cultivation trials
KW - harvest yields
KW - fuels
KW - testbed
KW - cultivation strategies
KW - algal productivities
KW - ponds
KW - Chlorella vulgaris
KW - Nannochloropsis oceanica
KW - renewable energy
KW - biochemical
KW - modeling
KW - analysis
LA - English
DA - 2016/09/27
PY - 2016
PB - National Renewable Energy Laboratory
T1 - Unified Field Study 5 (UFS-5)
UR - https://data.openei.org/submissions/704
ER -
Wolfrum, Ed, et al. Unified Field Study 5 (UFS-5) . National Renewable Energy Laboratory, 27 September, 2016, Open Energy Data Initiative (OEDI). https://data.openei.org/submissions/704.
Wolfrum, E., Knoshaug, E., Laurens, L., Harmon, V., Dempster, T., McGowan, J., Rosov, T., Cardello, D., Arrowsmith, S., Kempkes, S., Bautista, M., Lundquist, T., Crowe, B., Murawsky, G., Nicolai, E., Rowe, E., Knurek, E., Javar, R., Saracco Alvarez, M., Schlosser, S., Riddle, M., Withstandley, C., Chen, Y., Van Ginkel, S., Igou, T., Xu, C., & Hu, Z. (2016). Unified Field Study 5 (UFS-5) . [Data set]. Open Energy Data Initiative (OEDI). National Renewable Energy Laboratory. https://data.openei.org/submissions/704
Wolfrum, Ed, Eric Knoshaug, Lieve Laurens, Valerie Harmon, Thomas Dempster, John McGowan, Theresa Rosov, David Cardello, Sarah Arrowsmith, Sarah Kempkes, Maria Bautista, Tryg Lundquist, Braden Crowe, Garrett Murawsky, Eric Nicolai, Egan Rowe, Emily Knurek, Reyna Javar, Marcela Saracco Alvarez, Steve Schlosser, Mary Riddle, Chris Withstandley, Yongsheng Chen, Steven Van Ginkel, Thomas Igou, Chunyan Xu, and Zixuan Hu. Unified Field Study 5 (UFS-5) . National Renewable Energy Laboratory, September, 27, 2016. Distributed by Open Energy Data Initiative (OEDI). https://data.openei.org/submissions/704
@misc{OEDI_Dataset_704,
title = {Unified Field Study 5 (UFS-5) },
author = {Wolfrum, Ed and Knoshaug, Eric and Laurens, Lieve and Harmon, Valerie and Dempster, Thomas and McGowan, John and Rosov, Theresa and Cardello, David and Arrowsmith, Sarah and Kempkes, Sarah and Bautista, Maria and Lundquist, Tryg and Crowe, Braden and Murawsky, Garrett and Nicolai, Eric and Rowe, Egan and Knurek, Emily and Javar, Reyna and Saracco Alvarez, Marcela and Schlosser, Steve and Riddle, Mary and Withstandley, Chris and Chen, Yongsheng and Van Ginkel, Steven and Igou, Thomas and Xu, Chunyan and Hu, Zixuan},
abstractNote = {The Unified Field Studies (UFS), established by the Algae Testbed Public-Private Partnership (ATP3), produced data on the effect of environmental and process conditions on algal growth rates and algal composition. The goal of the fifth Unified Field Study (UFS-5), performed December 2014 to March 2015, was to generate a robust inter-testbed dataset in algal biomass and lipid productivity and yield for two algal strains (Nannochloropsis oceanica KA32 and Chlorella vulgaris LRB-AZ-1201) as a function of different regional, and environmental conditions among sites by controlling non-geographical-related variables including production systems, production process and protocols, system scale, and algae strain. This experiment also compared the effect on productivity of three harvests per week with multiple dilution rates vs. one harvest per week with one dilution rate.
For more information about the UFS experiments see the reference resources 0.0 UFS-1 Experiment OpenEI Wiki Page, 0.1 ATP3 OpenEI Wiki Page, 0.2 Report on the Use of ATP3 UFS Data below, and 0.3 ATP3 UFS Journal Article.},
url = {https://data.openei.org/submissions/704},
year = {2016},
howpublished = {Open Energy Data Initiative (OEDI), National Renewable Energy Laboratory, https://data.openei.org/submissions/704},
note = {Accessed: 2025-04-28}
}
Details
Data from Sep 27, 2016
Last updated Mar 12, 2024
Submitted Sep 29, 2016
Organization
National Renewable Energy Laboratory
Contact
ATP3 Information
Authors
Research Areas
Keywords
energy, power, algae, biomass, ATP3, UFS, Unified Field Study, algal growth, pond, strain, algal testbed, environmental conditions, process conditions, algal composition, data, algal biomass, regional, seasonal, bioenergy, biofuel, cultivation trials, harvest yields, fuels, testbed, cultivation strategies, algal productivities, ponds, Chlorella vulgaris, Nannochloropsis oceanica, renewable energy, biochemical, modeling, analysisDOE Project Details
Project Name Algae Testbed Public-Private Partnership ATP3 - a RAFT Partnership
Project Number EE0005996