ISR 2011 – SCUBSTER Team ISR 2011 : SCUBSTER Submersible Technical Introduction.
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Transcript of ISR 2011 – SCUBSTER Team ISR 2011 : SCUBSTER Submersible Technical Introduction.
ISR 2011 – SCUBSTER Team
ISR 2011 : SCUBSTER Submersible Technical Introduction
ISR 2011 – SCUBSTER Team
Contents
Introduction
Concept
Technical Presentation
The Team
Partners & Sponsors
ISR 2011 – SCUBSTER Team
Introduction
The original project started in 2009 when Stephane Rousson with the support of his partners decided to release a new Submersible Concept with the Innovative Design support of Minh-Lôc Truong.
The first aim of the project was to introduce a new wet submarine concept, with a design inspired by the Swordfish, focusing on manoeuvrability, undersea wide vision and high capacity for an extended autonomy. With the help of his partners and collaborators, the original Demonstrator prototype was first tested in Nice area during summer 2010 and has never stopped being optimized since .
For its very first participation to the International Submarine Race, the team is pleased to introduce the Scubster Demonstrator.
ISR 2011 – SCUBSTER Team
Concept
The Scubster demonstrator was not designed as a pure speed “Racer” but more to validate a new hydrodynamics approach combining aestheticism, inspired by sea animal universe, and manoeuvrability.
An original drivability & propulsion layout concept, based on a twin contra-rotating lateral propellers idea, enables a complete 6 degrees of freedom management only based on a 360°independent propellers orientation + left/right propeller coupling manual control.
ISR 2011 – SCUBSTER Team
Technical Presentation
Model Testing
Hull
Bill of Materials
Safety
Propulsion Principle
Drivability
Propellers Study
Main dimensions
Main Characteristics and calculated Performance
Trials & Testing
ISR 2011 – SCUBSTER Team
Model Testing
• In June 2010, the ISTV Engineering School (Toulon – France) released a Test Report of drag measurement in the school model test basin with a model supplied by the Scubster team prior to Demonstrator manufacturing. The aim of this test was to predict the Drag Coefficient (Cx) and establish the hydrodynamic performance of the Demonstrator.
• The specific equipment (a pod equipped with a force gauge and driven at a pre-set speed range by an electric motor) was used for a 1:5 scale Test Model prototyped in stereolythography by E2R Company based on 3D CAD drawings provided by the Scubster team.
ISR 2011 – SCUBSTER Team
Hull (1/2)
Half hull structure (desmountable pieces of wood with mirror possibility) for matrix mold core manufacturing
Hull half mold core preparation with carbon fiber sheets
Carbon fiber + Epoxy resin pre-assembled hull
Final assembly with gel coating prior to final sanding and painting
ISR 2011 – SCUBSTER Team
Hull (2/2)
Canopy kinematics Principle for easy opening and pilot access (Supmeca students CAD study – Toulon)
Disassemby feature for compact packaging during transportation overseas
ISR 2011 – SCUBSTER Team
Bill of Materials
• Hull : Carbon Fiber Epoxy Resin coated
• Canopy : Plexiglass Resin
• Transmission : Aluminium, Stainless Steel, Bronze, Glass Fiber filled Nylon 66, Carbon Fiber Tubes, rubber
• Propellers : Epoxy coated Wood
• Empennage : Aluminium
• Seat : Carbon fiber Epoxy Resin coated
• Safety Buoy : TBD
ISR 2011 – SCUBSTER Team
Safety (1/2)
• Emergency Exit :The wide canopy with easy access and opening allows a fast and easy ability to evacuate the submarine (actuated either from inside or outside with an Escape hatch device)
• Safety Buoy : To be completed
• Strobe : Leakproof (70 m) diving flashing LED light (to be completed)
ISR 2011 – SCUBSTER Team
Safety (2/2)
• Pressure Regulation :
The standard 2 stages Pressure Regulator design doesn’t compensate the hydrostatic water pressure (Delta P) between the mouth and chest vertical locations which can generate a local external overpressure up to 0.05 bar (i.e. 0.7 PSI) on thorax muscles. This may cause a significant constraint against an easy breathing when the diver body top is close to vertical and does handicap overall C02 release and physical performance when racing.
The 2 stage “Mistral” Mark II type does improve this constraint by a relocation of pressure regulator on the top of the air bottle, much vertically closer to the thorax muscles, reducing significantly the hydrostatic pressure (Delta P) on thorax for a much easier breathing and limited C02 storage. Furthermore, the relocation of the Pressure Regulator at the rear of the diver’s head allows to evacuate breathed out bubbles behind the diver which keeps the diver vision clear of bubbles.This new version will be implemented for the ISR 2011 Contest
ΔP
ISR 2011 – SCUBSTER Team
Propulsion Principle (1/2)
+/-180° orientation control of propulsion axis (left & right independantly)
Left & right propellers coupling / uncoupling control
ISR 2011 – SCUBSTER Team
Propulsion Principle (2/2)
+/-180° orientation control of propulsion axis
(left & right independantly)
Left & right propellers coupling / uncoupling control
ISR 2011 – SCUBSTER Team
Propulsion Principle
COMPLETE PROPELLERS COUPLING
ISR 2011 – SCUBSTER Team
Propulsion Principle
RIGHT PROPELLER DECOUPLING (RIGHT TURN)
ISR 2011 – SCUBSTER Team
Propulsion Principle
LEFT PROPELLER DECOUPLING (LEFT TURN)
ISR 2011 – SCUBSTER Team
Drivability (1/2)
Dive Up
Roll U-Turn Slow Down or Backward
Forward
ISR 2011 – SCUBSTER Team
Drivability (2/2)
ISR 2011 – SCUBSTER Team
Propellers Study
Based on expected performance and achievable submarine speed for a given RPM and supplied Power, a CFD Study of a 3 blades propeller was performed to optimize blades design for a good thrust efficiency. This job was achieved in April 2010 by ENSTA Bretagne (Engineering School Specialized in Marine applications; Brest – France)
ISR 2011 – SCUBSTER Team
Main Dimensions
ISR 2011 – SCUBSTER Team
Main Characteristics and Calculated Speed
• Sref x Cx : 0.224 m² (from test results on Demonstrator with measurement of drag force vs speed in a Swiming Pool)
• Hull Volume : 1.45 m3
• Calculated Max Speed : 1.25 m/s (2.43 knots) @ 300 W developped power
Predicted Speed when racing (@ 300 W)
0,00
0,25
0,50
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
0 10 20 30 40 50 60 70 80 90 100 110 120 130
distance (m)
Spe
ed (
m/s
)
Calculated progression (straight forward) with 300 Watt developped power
0
10
20
30
40
50
60
70
80
90
100
110
120
130
0 10 20 30 40 50 60 70 80 90 100 110 120
Time (sec)
Dis
tanc
e (m
)
ISR 2011 – SCUBSTER Team
Trials & Testing
• Summer 2010 : First prototype trials undersea (Saint Jean - Cap Ferrat, Nice area)
• February / March 2011 : 2 campains of testing in an Olympic size Swiming pool (Piscine Jean Bouin – Nice) Drag coefficient (Cx) determination by measurement of Drag Force vs. Speed Traction measurement with 2 types of propellers (submarine moored) Speed Up and Max Speed measurement Drivability trials with left/right propeller coupling/decoupling & orientation
• April 22, 2011 : New trials in sea with last design optimization (Saint Jean - Cap Ferrat) Reduced size of stabilization surfaces Reduced tail volume (improved stability with better buoyancy center and reduced inertia) Hull surface finish improvement
• April 26, 2011 : Biometric Evaluation with Diving Medical Experts (Marseille)
ISR 2011 – SCUBSTER Team
The Team
• Project Leader : Stephane Rousson
• Technical Team : Minh-Lôc Truong (Design) Bruno Sertier (Engineering)
Divers : Terence Dewaele (diving instructor)Delphine Del ContRobert BonnarStephane Rousson
• Team Coordination : Delphine MetayerLaure Magneron
ISR 2011 – SCUBSTER Team
Our Partners and Sponsors
• Sponsors : Ministère de la Santé, de la Jeunesse et des Sports (French Sport Ministery)Aqualung E2R Sicomin
Mapyachting Gates Nice Diving
Lemer
Partners :E-Props, Heliciel, Dynasub, Plexinautic
Air france Cargo, Janine Robin
• Universities & Engineering Schools :Supmeca (Toulon - France)ISITV (Toulon - France)ENSTA Bretagne (Brest - France)
The Scubster Team does also support sharks protection via Ecosyaction (above painting from Belinda Bussotti, Artist in Monaco)