Dr Fred Sonnenwald
MEng, PhD
School of Mechanical, Aerospace and Civil Engineering
Research Associate
+44 114 222 5416
Full contact details
School of Mechanical, Aerospace and Civil Engineering
Room D106
Sir Frederick Mappin Building (Broad Lane Building)
Mappin Street
Sheffield
S1 3JD
- Profile
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Fred Sonnenwald graduated with a MEng in Civil Engineering from the University of Sheffield in 2010.
He stayed on and completed his PhD on "Identifying the residence time distributions of urban drainage structures from solute transport data using maximum entropy deconvolution" in 2014.
Since 2014, Fred has been a researcher here at Sheffield studying fluid dynamics and mixing in urban drainage structures and vegetated flows.
- Research interests
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Fred's research has broadly covered two main subjects. The first, based off his PhD work, is on the identification and interpretation of residence time distributions, or RTDs. An RTD is the distribution of times a particle of water may reside in a system.
It forms a non-parametric model that fully describes the hydraulic/mixing processes occurring without any a-priori assumptions.
Researchers can deconvolve dye tracing data obtained experimentally to obtain an RTD, and use the resulting RTD to gain new insight into the hydrodynamics of the measured system.
This is of particular interest for complex hydraulic structures, such as manholes, where detailed laboratory measurements are infeasible due to the scale and complexity of the structure.
The second area of Fred's research is environmental fluid mechanics. Fred has focused on developing computational fluid dynamics (CFD) based approaches to describing mixing occurring within vegetation and interpreting these models.
He has coupled this with full-scale models of vegetated stormwater ponds to gain new insights into the pond design process and the effectiveness of ponds as constructed treatment devices.
This work will inform future design guidance for vegetated stormwater ponds to ensure consistent treatment.
Fred Sonnenwald's research areas encompass:
- Solute transport and other 1-D modelling (including ADE and ADZ methods)
- Residence time distributions
- Computational modelling & methods (including CFD)
- Deconvolution, as well as other model development and fitting processes
- SuDS: Green roofs, ponds, and other sustainable drainage devices
- Real-time monitoring
- Hydrodynamics
- Manhole mixing and energy losses
- Characterising aquatic vegetation
- Publications
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- Research group