Presentation for RTD trainees - StorHy Hydrogen Storage

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� Material & microstructure – Extruded multi-layer based PA � Liner material characterization – 8 multilayer polymers assessed: f (p,T) – Permeation: 2*10-18mol/(Pa.s.m) -> OK � 700 bar vessel design & calculation – Optimized end cap design – CF/PA 700 bar system – GF/PP 200 bar system � CF for this thermoplastic composite not available yet! � Vessel testing (GF/PP) – Burst pressure = 460 bar Hydrogen and Fuel Cell Review Days 2007, Brussels 10th-11th October Back up StorHy: 700 bar C-H 2 Vessels 700 bar modular system with extruded plastic liner and thermoplastic composite Source: COMAT Technical data (CF/PA design): • Mass of vessel: 10.9 kg • Internal volume: 9 l • H 2 storage capacity: 3.5 wt.% • Design pressure: 700 bar • H 2 mass stored: 0.4 kg
Type Measure Effort Contribution IV IV IV III III/IV III/IV III/IV III/IV III/IV Improve burst behavior (design, process) Hydrogen and Fuel Cell Review Days 2007, Brussels 10th-11th October Low 100% burst Temperature cycling + burst Low Reliability of Type IV Evaluate tightness after thermal & mechanical ageing (=> depending on permeation results) Low Improved permeation reliability of Type IV Improve cycling behaviour Medium Cycling feasibility Low / high temperature exposure risk Medium Safety Long term behavior (creep…) Medium Safety Improve design requirements (safety factors) Back up StorHy: Recommendations for C-H 2 High Weight, costs Innovative manufacturing concepts High Weight, costs New innovative fibers High Weight, costs Reliable and low cost components Medium Weight, costs, reliability
Page 1 and 2: STORHY “Hydrogen Storage Systems
Page 3 and 4: Source: Daimler Chrysler Gas: 700 b
Page 5 and 6: Consumer Expectations Driving range
Page 7 and 8: 700 bar Type III vessel with metall
Page 9 and 10: Hydrogen and Fuel Cell Review Days
Page 11 and 12: Ring winding head with modular siph
Page 13 and 14: High pressure H 2 V 1 Booster Coole
Page 15 and 16: Advanced C-H 2 700 bar filling devi
Page 17 and 18: Structure and coating concepts for
Page 19 and 20: Weight [kg] Mass comparison of gaso
Page 21 and 22: International technology watch �
Page 23 and 24: Storage Material Screening experime
Page 25 and 26: Calculated performance of tanks bas
Page 27 and 28: -90° Development of test procedure
Page 29 and 30: Multi-criteria evaluation � Five
Page 31 and 32: Medium-class Car: Fuel cell vehicle
Page 33 and 34: Today: Tomorrow: Bi-Fuel (L-H 2 + G
Page 35 and 36: L-H 2 storage � Storage densities
Page 37 and 38: Solid Storage (2) � Further resea
Page 43 and 44: Source: Dynetek Hydrogen and Fuel C
Page 45: Source: DC Hydrogen and Fuel Cell R
Page 49 and 50: Development of test procedures for
Page 51 and 52: Tests of optical fibre sensors for
Page 53 and 54: Cost reduction of C-H 2 storage sys
Page 55: Complex mixed Alanates: The followi

Presentation for RTD trainees - StorHy Hydrogen Storage

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