Quantification of a novel h-shaped ultrasonic resonator for separation of biomaterials under terrestrial gravity and microgravity conditions

Biotechnology and Bioengineering

Volumn 82, Issue 1, 2003, Pages 74-85

  Böhm, Hannes ^a   Briarty, Lewis G ^a   Lowe, Kenneth C ^a   Power, J Brian ^a   Benes, Ewald ^b   Davey, Michael R ^a  

^a UNIVERSITY OF NOTTINGHAM   (United Kingdom)

^b VIENNA UNIVERSITY OF TECHNOLOGY   (Austria)

Author keywords

Acoustic separation; Cell trapping; Microgravity, polystyrene microspheres; Spirulina platensis; Ultrasonic h resonator

Indexed keywords

ACOUSTIC FIELDS; BIOMATERIALS; MICROGRAVITY PROCESSING; RESONATORS; SENSORS; TURBIDITY; VIDEO RECORDING;

ULTRASONIC RESONATORS;

BIOTECHNOLOGY;

BIOMATERIAL; POLYSTYRENE;

ANALYTIC METHOD; ARTICLE; BIOSENSOR; COMPARATIVE STUDY; CONCENTRATION (PARAMETERS); CONTROLLED STUDY; CYANOBACTERIUM; FLOW RATE; GRAVITY; H SHAPED ULTRASONIC RESONATOR; MICROGRAVITY; NONHUMAN; PARTICULATE MATTER; PERFORMANCE; QUANTITATIVE ANALYSIS; SPIRULINA PLATENSIS; STRUCTURE ANALYSIS; TURBIDITY; ULTRASOUND;

FLIGHT EXPERIMENT; MANNED; PARABOLIC FLIGHT; SHORT DURATION;

CELL SEPARATION; CYANOBACTERIA; EQUIPMENT DESIGN; EQUIPMENT FAILURE ANALYSIS; FLOW CYTOMETRY; GRAVITATION; MICROSPHERES; POLYSTYRENES; SENSITIVITY AND SPECIFICITY; SONICATION; TRANSDUCERS; WEIGHTLESSNESS;

SPIRULINA; SPIRULINA PLATENSIS;

EID: 0037420406     PISSN: 00063592     EISSN: None     Source Type: Journal    
DOI: 10.1002/bit.10546     Document Type: Article

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