Nonequilibrium Effects in Kerosene-Oxygen Rocket Nozzle Flows,

Abstract

Nonequilibrium flow calculations were made for a small rocket engine burning kerosene and oxygen. Such rockets can be used in the laboratory for producing plumes under controlled experimental conditions. A time-dependent finite-difference technique was used to calculate the chemical nonequilibrium flow throughout the nozzle, including nonequilibrium conditions both upstream and downstream of the nozzle throat. Cases were computed for oxidizer/fuel ratios from 1.6 to 5. The results indicated that the principal chemical species (CO2, H2O and CO) deviated from equilibrium by about 20% at the nozzle exit. Of particular importance is the nonequilibrium gas static temperature, which is approximately 400K less than equilibrium conditions.

Document Details

Document Type
Technical Report
Publication Date
Jun 01, 1975
Accession Number
ADA013845

Entities

People

  • John D. Anderson Jr.
  • John S. Vamos

Organizations

  • University of Maryland

Tags

Communities of Interest

  • Weapons Technologies

DTIC Thesaurus Topics

  • Buildings And Structures
  • Engines
  • Flow
  • Gas Turbine Nozzles
  • Kerosene
  • Nonequilibrium Flow
  • Nozzles
  • Research Facilities
  • Rocket Engines
  • Rocket Nozzles
  • Rockets

Fields of Study

  • Physics

Readers

  • Combustion and Flow Dynamics.
  • Combustion science or combustion engineering.