Revolution Centrifugal Pump

Revolution Centrifugal Pump

Performance Overview Rev 2.1

Bearing Failures Leaks Decouple Noise & Fractured

Magnets Thrombus Generation &

Hemolysis Air Entrapment Vane Impeller = Blender

Flow Sensor Issues Ease of Set-up

Centrifugal Pump Challenges

Designed by the experts in centrifugal pump design.

Unique molded magnet driver:

• Fills internal space

• Assures balanced magnet

• Consistent performance

Pump Assembly Manufacturing Process

100% Quality Control Process Designed for manufacturability Simple assembly Minimal parts Ultrasonic weld

Simple Assembly = High Quality

Assembly

1. Patented Curved Inlet

Port

3. Patented “Spin-Inducer”

2. Patented Seal-less, Low Friction Upper

Bearing

5. Ultrasonic Weld

Upper & Lower

Housing

Internal Features

4. Impeller floats while

pumping

Flow enters the inlet rinsing the top bearing

Centrifugal force moves fluid to the outside

Fluid not leaving the pump moves

back to the low pressure center,

rinsing the bottom bearing Recirculation is

completed by fluid moving up thru the central channel

As fluid moves up thru the central channel, it lifts the impeller off the bottom bearing, opposing the magnetic forces, reducing

bearing load and bearing friction. The impeller literally floats.

Flow Path

Pump-Head Internal Surface Area

190.0 215.0

270.0 281.0

400.0

590.0

0.0

100.0

200.0

300.0

400.0

500.0

600.0

CM

2

Rotaflow Delphin Revolution Isoflow Capiox BP80

Revolution’s small surface

area reduces platelet

activation.

Testing documented in Sorin Group Engineering Report SPN0263

Model Prime (ml) Rate Flow (lpm)

Rated Press (mm Hg)

Max Speed (rpm)

Revolution 57 8 800 3500

Medtronic Biopump 89 8 900 4400

Sarns Delphin 52 9.9 700 3600

Lifestream Isoflow 65 9.99 800 3500

Jostra Rotaflow 32 10 750 5000

Terumo Capiox 45 8 800 3000

General Specifications data source: Manufacturers IFU

2 cc of air injected

Volume collected in chamber

Test Circuit

Computational Flow Dynamics

Large changes in velocity would indicate vortexing.

Note steady increases from center to end of vane tips.

Computational Flow Dynamics

Analysis featured in Dynamics magazine

Click here to read the article or go to:http://www.cd-adapco.com/press_room/dynamics/18/

Dr. Robin ShandasProfessor of Pediatric Medicine & Mechanical Engineering – University of Colorado

Validates CFD: No Vane Tip Vortices

Gentle acceleration from center to outer diameter

Flow Visualization

Click on picture to start/stop video

Unorganized flowupstream of inlet

Upstream of inlet

Flow Visualization


Organized flowapproaching inlet

Near inlet

Flow Visualization


Smooth rotationalflow at inlet due tospin-inducer

Inlet

Flow Visualization


Rotational flowcreated by spin-inducer

Spin-inducer

Flow Visualization


0

20

40

60

80

100

m

g%

Capiox SP Rotaflow Isoflow Revolution BPX-80 Sarns BP-80

Plasma Free Hemoglobin at 360 min

Low Hemolysis

P=.047

P=.073

P=.007

P=.472

P=.762P=.316


Plasma Free Hemoglobin

Low Hemolysis

0

10

20

30

40

50

60

70

mg

%


30 min

180 min

360 min


Index of Hemolysis

Low Hemolysis

0

10

20

30

40

50

60

70

mg

/10

0L


P=.047

P=.799

P=.464

P=.007

P=.076

P=.308


Temperature at 360 min

Low Heat Generation

26.0

27.0

28.0

29.0

30.0

31.0

32.0

°C

Rotaflow Revolution Sarns BP-80


Pressure-Flow (@ Maximum RPM)

600

650

700

750

800

850

900

950

1000

0 2 4 6 8

LPM

mm

Hg

Revolution 3500 BP80 Sarns

Terumo Jostra Isoflo


0

100

200

300

400

500

600

700

800

900

0 1000 2000 3000 4000 5000

RPM

mm

Hg

Revolution

BP-80

Isoflow

Rotaflow

Capiox

Sarns

Pressure generated at 5 LPM

High Efficiency: Highly efficient pump reduces hemolytic heat generation.Testing documented in Sorin Group Engineering Report SPN0263

Thank you for your time and attention today!

Sorin Group USA, Inc.14401 W. 65th Way Arvada, CO 80004Toll free: 800.221.7943www.soringroup-usa.com

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Revolution Centrifugal Pump

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