Ampelmann Demonstrator

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Presentation transcript:

Ampelmann Demonstrator by David Cerda Salzmann

Offshore Access

Offshore Access

Offshore Access is NOT easy

Essential for turbine maintenance Offshore Access Offshore Access = Essential for turbine maintenance

Limited to calm weather conditions Boat-to-ladder Horns Rev access by boat: 1st winter: 5/7 days 2nd winter: 1/7 days Limited to calm weather conditions

Costly, requires deck, hazardous operation Helicopter hoisting Costly, requires deck, hazardous operation

Need for new access method? Future Prospects Larger wind turbines Larger wind farms Farther offshore Need for new access method?

Ampelmann

Ship is moving, structure is NOT Ampelmann Solution based on the problem: Ship is moving, structure is NOT

Active motion compensation Ampelmann Motion platform Active motion compensation Motion sensor Moving vessel

Ampelmann

As easy as crossing the street Ampelmann Invented by 2 TU Delft PhD students Wind Energy Conference, Berlin 2002 Code name “Ampelmann” As easy as crossing the street

Proof of Concept

Proof of Concept

Proof of Concept The concept works!

Industry comments Show that it works full-scale Show that it works offshore Prove that the system is safe Build a demonstrator!

Project

Design Requirements Hs = 2.0 m on a 50 m vessel Cylinder stroke 2 meter Maximum footprint 6 x 6 meter Redundant System

Safety & certification Planning R & D Shell, Smit, Heerema Interest clients Demo Start company Finance Prototype Safety & certification Construct Onshore testing Offshore testing Design Order components Sept 2006 Sept. 2007

Safety & certification Planning R & D Shell, Smit, Heerema Interest clients Demo Start company Finance Prototype Safety & certification Construct Onshore testing Offshore testing Design Order components Sept 2006 Sept. 2007 Components finished Safety system in development Programming control system Lloyd's Certification

Safety & certification Planning R & D Shell, Smit, Heerema Interest clients Demo Start company Finance Prototype Safety & certification Construct Onshore testing Offshore testing Design Order components Sept 2006 Sept. 2007 Testing this summer

Safety & certification Planning R & D Shell, Smit, Heerema Interest clients Demo Start company Finance Prototype Safety & certification Construct Onshore testing Offshore testing Design Order components Sept 2006 Sept. 2007 Commercialize after successful demo

Safety & certification Planning R & D Shell, Smit, Heerema Interest clients Demo Start company Finance Prototype Safety & certification Construct Onshore testing Offshore testing Design Order components Sept 2006 Sept. 2007 Motion platform Hydraulics Controls

Motion platform design Footprint and cylinder stroke given 6 x 6 m 2 m

Motion platform design Footprint and cylinder stroke given Load case: 10 tonnes

Motion platform design Footprint and cylinder stroke given Load case: 10 tonnes Optimized to forces and workspace

Motion platform design Motion range: Vertical 2.5 m Horizontal 3.3 m Rotations 50 °

Hydraulic design Redundant design Low power consumption Vessel motion simulations

Hydraulic design Pump pressure 240 bar Power demand 200 kW Piston accumulator 2 valves per cylinder

Control design Based on flight simulator Redundant Feed forward

Gangway Length: 8-16 meter Yaw: 2 x 180 degrees Pitch: +/- 20º

Construction Assembly this month

Offshore Testing Testing this summer

www.ampelmann.nl