Publications

Lane, Todd L.; Davis, Ryan W.; Lane, Pamela L.; Hewson, John C.; Siccardi, Anthony J.; Kipp, Peter K.

Abstract not provided.

Lane, Todd L.; Davis, Ryan W.; Lane, Pamela L.; Hewson, John C.; Wyatt, Nicholas B.

Abstract not provided.

Lane, Todd L.; Hewson, John C.; Davis, Ryan W.; Lane, Pamela L.; Siccardi, Anthony J.; Kipp, Peter K.

Abstract not provided.

Hewson, John C.; Domino, Stefan P.

Abstract not provided.

Hewson, John C.; Domino, Stefan P.

Abstract not provided.

Hewson, John C.; Lignell, David O.; Kearney, Sean P.

Abstract not provided.

Moffat, Harry K.; Hewson, John C.; Orendorff, Christopher O.; Roberts, Scott A.; Allu, Srikanth A.; Sreekanth, Pannala S.; Kee, Robert K.; Zhu, Huayang Z.

Abstract not provided.

Hewson, John C.; Lignell, David O.; Sun, Guangyuan S.; Kerstein, Alan R.

Abstract not provided.

Hewson, John C.; Domino, Stefan P.

Abstract not provided.

Blaylock, Myra L.; Templeton, Jeremy A.; Safta, Cosmin S.; Hewson, John C.; Domino, Stefan P.

Abstract not provided.

Hewson, John C.; Lignell, David O.; Kearney, S.P.; Guildenbecher, Daniel R.; Lansinger, Victoria L.

Abstract not provided.

Biotechnology and Bioengineering

Zhang, Xuezhi; Hewson, John C.; Amendola, Pasquale; Reynoso, Monica; Sommerfeld, Milton; Chen, Yongsheng; Hu, Qiang

In this study, Chlorella zofingiensis harvesting by dissolved air flotation (DAF) was critically evaluated with regard to algal concentration, culture conditions, type and dosage of coagulants, and recycle ratio. Harvesting efficiency increased with coagulant dosage and leveled off at 81%, 86%, 91%, and 87% when chitosan, Al3+, Fe3+, and cetyl trimethylammonium bromide (CTAB) were used at dosages of 70, 180, 250, and 500mgg-1, respectively. The DAF efficiency-coagulant dosage relationship changed with algal culture conditions. Evaluation of the influence of the initial algal concentration and recycle ratio revealed that, under conditions typical for algal harvesting, it is possible that the number of bubbles is insufficient. A DAF algal harvesting model was developed to explain this observation by introducing mass-based floc size distributions and a bubble limitation into the white water blanket model. The model revealed the importance of coagulation to increase floc-bubble collision and attachment, and the preferential interaction of bubbles with larger flocs, which limited the availability of bubbles to the smaller sized flocs. The harvesting efficiencies predicted by the model agree reasonably with experimental data obtained at different Al3+ dosages, algal concentrations, and recycle ratios. Based on this modeling, critical parameters for efficient algal harvesting were identified. Biotechnol.

Hewson, John C.; Knaus, Robert K.

Abstract not provided.

Physics of Fluids (1994)

Hewson, John C.

Lagrangian particle dispersion is studied using the one-dimensional turbulence (ODT) model in homogeneous decaying turbulence configurations. The ODT model has been widely and successfully applied to a number of reacting and nonreacting flow configurations, but only limited application has been made to multiphase flows. We present a version of the particle implementation and interaction with the stochastic and instantaneous ODT eddy events. The model is characterized by comparison to experimental data of particle dispersion for a range of intrinsic particle time scales and body forces. Particle dispersion, velocity, and integral time scale results are presented. Moreover, the particle implementation introduces a single model parameter β p , and sensitivity to this parameter and behavior of the model are discussed. Good agreement is found with experimental data and the ODT model is able to capture the particle inertial and trajectory crossing effects. Our results serve as a validation case of the multiphase implementations of ODT for extensions to other flow configurations.

Hewson, John C.; Lignell, David O.; Sun, Guangyuan S.

Abstract not provided.

Hewson, John C.; Lignell, David O.; Sun, Guangyuan S.

Particles in non - isothermal turbulent flow are subject to a stochastic environment tha t produces a distribution of particle time - temperature histories. This distribution is a function of the dispersion of the non - isothermal (continuous) gas phase and the distribution of particles relative to that gas phase. In this work we extend the one - dimensional turbulence (ODT) model to predict the joint dispersion of a dispersed particle phase and a continuous phase. The ODT model predicts the turbulent evolution of continuous scalar fields with a model for the cascade of fluctuations to smaller sc ales (the 'triplet map') at a rate that is a function of the fully resolved one - dimens ional velocity field . Stochastic triplet maps also drive Lagrangian particle dispersion with finite Stokes number s including inertial and eddy trajectory - crossing effect s included. Two distinct approaches to this coupling between triplet maps and particle dispersion are developed and implemented along with a hybrid approach. An 'instantaneous' particle displacement model matches the tracer particle limit and provide s an accurate description of particle dispersion. A 'continuous' particle displacement m odel translates triplet maps into a continuous velocity field to which particles respond. Particles can alter the turbulence, and modifications to the stochastic rate expr ession are developed for two - way coupling between particles and the continuous phase. Each aspect of model development is evaluated in canonical flows (homogeneous turbulence, free - shear flows and wall - bounded flows) for which quality measurements are ava ilable. ODT simulations of non - isothermal flows provide statistics for particle heating. These simulations show the significance of accurately predicting the joint statistics of particle and fluid dispersion . Inhomogeneous turbulence coupled with the in fluence of the mean flow fields on particles of varying properties alter s particle dispersion. The joint particle - temperature dispersion leads to a distribution of temperature histories predicted by the ODT . Predictions are shown for the lower moments an d the full distributions of the particle positions, particle - observed gas temperatures and particle temperatures. An analysis of the time scales affecting particle - temperature interactions covers Lagrangian integral time scales based on temperature autoco rrelations, rates of temperature change associated with particle motion relative to the temperature field and rates of diffusional change of temperatures. These latter two time scales have not been investigated previously; they are shown to be strongly in termittent having peaked distributions with long tails. The logarithm of the absolute value of these time scales exhibits a distribution closer to normal. A cknowledgements This work is supported by the Defense Threat Reduction Agency (DTRA) under their Counter - Weapons of Mass Destruction Basic Research Program in the area of Chemical and Biological Agent Defeat under award number HDTRA1 - 11 - 4503I to Sandia National Laboratories. The authors would like to express their appreciation for the guidance provi ded by Dr. Suhithi Peiris to this project and to the Science to Defeat Weapons of Mass Destruction program.

Ingersoll, David I.; Spoerke, Erik D.; Domino, Stefan P.; Hewson, John C.; Clem, Paul G.; Kee, Prof.R.; Porter, Prof.J.; Wachsman, Prof.E.; Bhavaraju, S.B.; Zhu, H.Z.; Jolley, A.J.; Robins, M.R.

Abstract not provided.

Wyatt, Nicholas B.; Hewson, John C.; Davis, Ryan W.; Lane, Todd L.

Abstract not provided.

Lane, Todd L.; Lane, Pamela L.; Davis, Ryan W.; Hewson, John C.; Wyatt, Nicholas B.; Kipp, Peter K.; Truscott, Stacy T.; Siccardi, Anthony J.

Abstract not provided.

Lane, Todd L.; Hewson, John C.; Lane, Pamela L.; Davis, Ryan W.; Siccardi, Anthony J.; Wyatt, Nicholas B.

Abstract not provided.

Brown, Alexander B.; Pierce, Flint P.; Hewson, John C.

Abstract not provided.

Hewson, John C.; Kearney, S.P.; Guildenbecher, Daniel R.

Abstract not provided.

Hewson, John C.

Abstract not provided.

Wyatt, Nicholas B.; Hewson, John C.; Davis, Ryan W.; Lane, Todd L.

Abstract not provided.

Lane, Todd L.; Lane, Pamela L.; Wyatt, Nicholas B.; Davis, Ryan W.; Hewson, John C.; Siccardi, Anthony J.; Kipp, Peter K.

Abstract not provided.