Accession Number : AD0626596

Title :   THERMODYNAMIC EVALUATION OF THE POSSIBILITY OF LITHIUM SUPEROXIDE PRODUCTION.

Descriptive Note : Final rept. 1 Feb-29 May 65,

Corporate Author : IIT RESEARCH INST CHICAGO ILL

Personal Author(s) : Snow,Richard H.

Report Date : AUG 1965

Pagination or Media Count : 34

Abstract : To determine whether lithium superoxide can be produced and whether it is stable enough for use in air regeneration units of manned spacecraft, the free energy of lithium superoxide was calculated from estimated values of the heat of formation, entropy, and heat capacity. The estimates were based on graphical comparison with properties of other oxides. The heat of formation was also determined from calculation of the lattice energy by means of the Born-Haber cycle. The result was -65 kcal. The stability of lithium superoxide was deduced by comparing graphically the free energies of the oxides of lithium. The superoxide is unstable by 15 kcal from 100 to 300K and is even more unstable at higher temperatures. Reasonably high pressure and other effects cannot overcome this instability, even at low temperature. Therefore the use of lithium superoxide for air regeneration units is not promising. (Author)

Descriptors :   *LITHIUM COMPOUNDS, LITHIUM, OXIDES, THERMODYNAMICS, THERMOCHEMISTRY, AIR, REGENERATION(ENGINEERING), RESPIRATION, STABILITY, ENTROPY, HEAT OF FORMATION, CRYSTAL STRUCTURE, SPACECRAFT, LIFE SUPPORT SYSTEMS, ALKALI METAL COMPOUNDS, PRODUCTION.

Subject Categories : Inorganic Chemistry
      Unmanned Spacecraft
      Life Support Systems

Distribution Statement : APPROVED FOR PUBLIC RELEASE