Qualification Test for the Ariane 5 Attitude Control System 400N Thruster

Holzwarth, Matthias; Serbest, Erhan; Rogall, Hartmut

doi:10.2514/6.2003-4779

Cited by 3 publications

(1 citation statement)

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“…The preparation procedure is different from that of Shell 405, with three impregnation-drying-impregnation-drying -reduction cycles. One application of KC12GA catalyst is in the Ariane-V roll control thrusters used during the launch process [93]. An exhaustive comparison of both catalysts was published recently by Goto et al [92].…”

Section: B Kalichemie Kc12ga Catalyst (Germany)mentioning

confidence: 99%

Catalytic Decomposition of Energetic Compounds: Gas Generators and Propulsion1A list of abbreviations/acronyms used in the text is provided at the end of the chpater

Batonneau

Kappenstein

Keim

2008

Handbook of Heterogeneous Catalysis

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The sections in this article are Introduction Energetic Compounds Propellants Gas generators Explosive Materials Ignition systems Scope of the Chapter, and Literature Data Units Some Propulsion Elements A Short Introduction to Propulsion Theory Comparison of Propulsion Types and Propellants Propulsion System Types Propellants Advantages of Catalytic Propulsion A Brief History of Rocketry and Catalytic Propulsion The Current Supremacy of Hydrazine Introduction Catalysts Heterogeneous Catalysis: General Studies Mechanistic Considerations A Literature Overview B Thermodynamic Data C Isotope‐Related Studies D Single‐Crystal Studies E Catalytic Cycle Proposals Iridium‐Based Industrial Catalysts A Shell 405 Catalyst ( USA ) B K ali C hemie KC 12 GA Catalyst ( G ermany) C C nesro Catalyst ( F rance) D GIPKh Catalysts (former USSR ) New Hydrazine Decomposition Catalysts Homogeneous Catalysis and Coordination Chemistry of Hydrazine Applications of Hydrazine Catalytic Decomposition Gas Generators Use in Fuel Cells Corrosion Protection Drawbacks of Hydrazine “Green” Propellants as Hydrazine Replacements Introduction Energetic Aqueous Ionic Liquids Thermal Decomposition Catalytic Decomposition of HAN , ADN , and HNF A Hydroxyl Ammonium Nitrate ( HAN ) B Hydrazinium NitroFormate ( HNF ) C Ammonium DiNitramide ( ADN ) Development of Tools for Catalyst Evaluation The Comeback of Hydrogen Peroxide Introduction Thermal and Catalytic Decomposition Catalysts for Monopropellant Engines Kinetic Rate of Decomposition Hybrid Engine Hypergolic Bipropellant Engine Effect of Stabilizers on Catalytic Decomposition Nitrous Oxide (N 2 O) for Monopropellant Engines or Hybrid Engines Introduction Catalysts Use of N 2 O as a Monopropellant Use of N 2 O for Hybrid Engine Future Prospective Applications of Catalytic Propulsion New Energetic Liquids Catalysts for Air‐Breathing Supersonic or Hypersonic Jets Catalysts for Pulse Detonating Engine Ignition of Gaseous Hydrogen–Oxygen Mixtures Gas Generator to Power Micropumps through Small Turbines Conclusion: A Biological System using H 2 O 2 Decomposition for Tactical Defense Acknowledgement

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Section: B Kalichemie Kc12ga Catalyst (Germany)mentioning

confidence: 99%