This page no longer updated from 31 October 2001. Latest version can be found at H2O2/Pentaborane

Oxidiser: H2O2. Oxidiser Density: 1.44 g/cc. Oxidiser Freezing Point: -1.00 deg C. Oxidiser Boiling Point: 150.00 deg C.

Hydrogen peroxide is used as both an oxidiser and a monopropellant. Relatively high density and non-toxic, it was abandoned after early use in British rockets, but recently revived as a propellant for the Black Horse spaceplane. Hydrogen peroxide solutions are clear, astringent, colorless liquids which are slightly more viscous than water. They are described by Military Specification MIL-H-16005. High-strength hydrogen peroxide solutions are very reactive oxidising agents. Hydrogen peroxide is miscible in all proportions in water; it is soluble in a large number of organic liquids which are also soluble in water. However, many of these mixtures form explosive mixtures. Hydrogen peroxide-water solutions are normally insensitive to detonation by shock or impact. Surfaces that come in contact with hydrogen peroxide must be specially treated (passivated) before use, to prevent the decomposition of the hydrogen peroxide. Hydrogen peroxide-water solutions and their vapours are considered non-toxic, but are characterised by their ability to produce local irritation.

Hydrogen peroxide is manufactured commercially by several processes. Inorganic processes employ the electrolysis of an aqueous solution of sulphuric acid or acidic ammonium bisulphate, followed by hydrolysis of the peroxydisulfate which is formed. For reasons of economy and flexibility of plant location, organic processing methods have become important in the production of hydrogen peroxide. These include (1) the autoxidation of hydroquinone or one of its homologues in a suitable solvent system and (2) the partial gas-phase oxidation of hydrocarbons.

Dilute aqueous hydrogen peroxide is concentrated to about 90 per cent by conventional distillation. Higher-strength solutions are prepared by fractional crystallisation of 90 per cent feed stock. Estimated United States production for 1959 was 50,000 tonnes based upon 100 per cent hydrogen peroxide. In large quantities, 95 per cent hydrogen peroxide then cost approximately $1.00 per kg. In small drum lots, 98 per cent solutions cost $ 2.00 per kg. Density varies: 2.44 g/cc for 100% H2O2, 2.43 for 98%, 2.42 for 96%, 2.33 for 75%.

Fuel: Pentaborane. Fuel Density: 0.62 g/cc. Fuel Freezing Point: -47.00 deg C. Fuel Boiling Point: 62.00 deg C.

Pentaborane (B5H9) was considered as a high performance fuel in the US in the 1950's. Its development was pursued with some vigour by Glushko in Russia during the 1960's. But like the other fluorine and boron motors of the time, it presented too many handling and safety problems to be adopted as a flight engine. Pentaborane is a colorless, mobile liquid. It exhibits a disagreeable odour and is an extremely toxic propellant. In the presence of water, B5H9 is much more stable than diborane. Pentaborane, if pure, is not spontaneously flammable in air. However, minor concentrations of impurities cause it to be spontaneously flammable in air. Prolonged storage for several years at room temperature reveal only negligible decomposition of pentaborane with the formation of hydrogen and solid residue. It shows good solubility in hydrocarbons, cyclohexane, and benzene.

Pentaborane is produced by the pyrolysis of diborane; the conversion is not a clean-cut reaction.

Engines Using H2O2/Pentaborane

Eng-engineslink Thrust(vac)-kgf Thrust(vac)-kN Isp-sec Isp (sea level)-sec Designed for Status
RD-502 10,000 98.10 380   Upper Stages Developed 1960-66

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Last update 3 May 2001.
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© Mark Wade, 2001 .