SCOPUS 정보 검색 플랫폼

Volumn 41, Issue 6, 2017, Pages 529-538

Experimental Approach to Visualize Flow in a Stacked Hollow Fiber Bundle of an Artificial Lung With Particle Image Velocimetry

(9) Kaesler, Andreas a Schlanstein, Peter C a Hesselmann, Felix a Büsen, Martin a Klaas, Michael a Roggenkamp, Dorothee a Schmitz Rode, Thomas a Steinseifer, Ulrich a Arens, Jutta a

a RWTH AACHEN UNIVERSITY (Germany)

Author keywords

Particle image velocimetry; Artificial lung; Computational fluid dynamics; Experimental flow visualization; Hollow fiber membrane; Oxygenator; Porous media; Stacked fiber configuration

Indexed keywords

AIR; ARTIFICIAL ORGANS; BIOLOGICAL ORGANS; BLOOD; COMPUTATION THEORY; COMPUTATIONAL FLUID DYNAMICS; FIBERS; FLOW VISUALIZATION; HEMODYNAMICS; POROUS MATERIALS; STEREO IMAGE PROCESSING; VELOCIMETERS;

ARTIFICIAL LUNG; FIBER CONFIGURATION; FLOW VISUALISATION; HOLLOW-FIBRE MEMBRANE; POROUS MEDIUM; —ARTIFICIAL LUNG; —COMPUTATIONAL FLUID DYNAMIC; —EXPERIMENTAL FLOW VISUALIZATION; —HOLLOW FIBER MEMBRANE; —OXYGENATOR; —POROUS MEDIUM; —STACKED FIBER CONFIGURATION;

VELOCITY MEASUREMENT;

ACCELERATION; ARTICLE; ARTIFICIAL LUNG; BIOCOMPATIBILITY; BLOOD FLOW; BLOOD FLOW VELOCITY; COMPUTATIONAL FLUID DYNAMICS; COMPUTER SIMULATION; CORRELATION COEFFICIENT; DECELERATION; DENSITY; FEASIBILITY STUDY; FLOW RATE; HEMOLYSIS; HOLLOW FIBER MEMBRANE; HYDRAULIC PERMEABILITY; MEMBRANE PERMEABILITY; PARTICLE IMAGE VELOCIMETRY; PARTICLE SIZE; POROSITY; PRIORITY JOURNAL; VISCOSITY; BIOLOGICAL MODEL; EQUIPMENT DESIGN; FLOW KINETICS; HEMODYNAMICS; HUMAN; HYDRODYNAMICS; LUNG; MECHANICAL VENTILATOR; MEMBRANE OXYGENATOR; PROCEDURES; VASCULARIZATION;

BLOOD FLOW VELOCITY; COMPUTER SIMULATION; EQUIPMENT DESIGN; HEMODYNAMICS; HUMANS; HYDRODYNAMICS; LUNG; MODELS, CARDIOVASCULAR; OXYGENATORS, MEMBRANE; RHEOLOGY; VENTILATORS, MECHANICAL;

EID: 85008255966 PISSN: 0160564X EISSN: 15251594 Source Type: Journal
DOI: 10.1111/aor.12812 Document Type: Article

Times cited : (13)

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* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.