The Future of Potassium Bitartrate Stabilization: Minimizing Energy, Wine Loss, and Treatment Time

Benjamin J. Geveke; Ron C. Runnebaum

doi:10.5344/catalyst.2020.20004

The Future of Potassium Bitartrate Stabilization: Minimizing Energy, Wine Loss, and Treatment Time

Benjamin J. Geveke, Ron C. Runnebaum

Catalyst: Discovery into Practice November 2020 4: 98-106; published ahead of print August 28, 2020 ; DOI: 10.5344/catalyst.2020.20004

Benjamin J. Geveke

1Department of Chemical Engineering, One Shields Avenue, University of California, Davis, CA 95616; and

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Ron C. Runnebaum

1Department of Chemical Engineering, One Shields Avenue, University of California, Davis, CA 95616; and

2Department of Viticulture & Enology, One Shields Avenue, University of California, Davis, CA 95616.

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For correspondence: rcrunnebaum@ucdavis.edu

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The Future of Potassium Bitartrate Stabilization: Minimizing Energy, Wine Loss, and Treatment Time

Benjamin J. Geveke, Ron C. Runnebaum

Catalyst: Discovery into Practice November 2020 4: 98-106; published ahead of print August 28, 2020 ; DOI: 10.5344/catalyst.2020.20004

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The Future of Potassium Bitartrate Stabilization: Minimizing Energy, Wine Loss, and Treatment Time

Benjamin J. Geveke, Ron C. Runnebaum

Catalyst: Discovery into Practice November 2020 4: 98-106; published ahead of print August 28, 2020 ; DOI: 10.5344/catalyst.2020.20004

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