Changes in velocity distribution produced by paddlewheels in algae raceway ponds
Changes in velocity distribution produced by paddlewheels in algae raceway ponds
Open raceway ponds (RWPs) are widely used in large-scale algae production. To improve the performance of these systems, it is crucial to understand the flow structure throughout the ponds. Computational fluid dynamics (CFD) simulations have been widely used to study the flow field in RWPs. However, such studies typically require assumptions about the distribution of velocities at the inlet boundary of the domain (which is usually taken as the cross-section a short distance downstream from the paddlewheel). In this study, laboratory measurements were carried out to study the flow structure in the vicinity of a paddlewheel in a raceway pond model. Results showed that the paddlewheel may induce complex changes to the distribution of depth-averaged velocities, including the complex inversion of the velocity gradient across the channel. The measured non-uniform distribution of velocities was then used as the boundary condition of a CFD simulation to understand the effects of common assumptions on the accuracy of CFD simulations of flows in RWPs. Furthermore, observations in a field (full-scale) installation corroborated that the presence of a paddlewheel significantly affects the velocity distribution in its vicinity, further strengthening the argument that such changes to the flow should not be disregarded in numerical simulations of RWPs.
CFD, PIV, Paddlewheel, Raceway ponds, Velocity inversion
Abbaszadeh, Mahmoud
594e03c0-a134-4b95-b1db-35171b8f0561
Maldonado, Sergio
b303ef8c-52d6-40ed-bf48-59efb4265a85
de Almeida, Gustavo
f6edffc1-7bb3-443f-8829-e471b6514a7e
9 March 2024
Abbaszadeh, Mahmoud
594e03c0-a134-4b95-b1db-35171b8f0561
Maldonado, Sergio
b303ef8c-52d6-40ed-bf48-59efb4265a85
de Almeida, Gustavo
f6edffc1-7bb3-443f-8829-e471b6514a7e
Abbaszadeh, Mahmoud, Maldonado, Sergio and de Almeida, Gustavo
(2024)
Changes in velocity distribution produced by paddlewheels in algae raceway ponds.
Algal Research, 79, [103454].
(doi:10.1016/j.algal.2024.103454).
Abstract
Open raceway ponds (RWPs) are widely used in large-scale algae production. To improve the performance of these systems, it is crucial to understand the flow structure throughout the ponds. Computational fluid dynamics (CFD) simulations have been widely used to study the flow field in RWPs. However, such studies typically require assumptions about the distribution of velocities at the inlet boundary of the domain (which is usually taken as the cross-section a short distance downstream from the paddlewheel). In this study, laboratory measurements were carried out to study the flow structure in the vicinity of a paddlewheel in a raceway pond model. Results showed that the paddlewheel may induce complex changes to the distribution of depth-averaged velocities, including the complex inversion of the velocity gradient across the channel. The measured non-uniform distribution of velocities was then used as the boundary condition of a CFD simulation to understand the effects of common assumptions on the accuracy of CFD simulations of flows in RWPs. Furthermore, observations in a field (full-scale) installation corroborated that the presence of a paddlewheel significantly affects the velocity distribution in its vicinity, further strengthening the argument that such changes to the flow should not be disregarded in numerical simulations of RWPs.
Text
2024_Mahmoud_Non_uniform_flow_velocity_in_algae_RWPs_Accepted
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More information
Accepted/In Press date: 29 February 2024
e-pub ahead of print date: 6 March 2024
Published date: 9 March 2024
Keywords:
CFD, PIV, Paddlewheel, Raceway ponds, Velocity inversion
Identifiers
Local EPrints ID: 488520
URI: http://eprints.soton.ac.uk/id/eprint/488520
ISSN: 2211-9264
PURE UUID: 4eb1b0b2-6dc8-43bb-94a9-be32c567975d
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Date deposited: 26 Mar 2024 17:39
Last modified: 18 Apr 2024 01:52
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