Showing papers on "Afterburner published in 1968"
Patent•
03 Jun 1968TL;DR: In this paper, an afterburner for oXIDIZING GASEOUS WASTES COMPRISES an ELongated, FRUSTOCONICAL this paperRACTORY CHAMBER of INCREASING INTERNAL CROSS-SECTIONAL AREA from ENTRANCE to EXIT.
Abstract: AN AFTERBURNER FOR OXIDIZING GASEOUS WASTES COMPRISES AN ELONGATED, FRUSTOCONICAL REFRACTORY CHAMBER OF INCREASING INTERNAL CROSS-SECTIONAL AREA FROM ENTRANCE TO EXIT. NEAR THE ENTRANCE END, HEAT IS INTRODUCED INTO THE CHEMBER TO RAISE THE TEMPERATURE OF THE GASEOUS WASTE PRODUCTS TO THE POINT WHERE THEY WILL SPONTANEOUSLY OXIDIZE WHEN MIXED WITH FLUENT OXIDIZER. THE FLUENT OXIDIZER (E.G., AIR) IS INTRODUCED IN SPACED SEQUENTIAL FASHION ALONG THE LENGTH OF THE CHAMBER.
45 citations
17 Mar 1968
TL;DR: In this article, the basic operating principles of an electronic digital computer gas turbine engine control system are presented; closed loop turbine discharge temperature and speed controls have been implemented; their feasibility was demonstrated through hybrid digital/analog simulation and actual tests of a GE J85 turbojet engine through the start mode to maximum afterburner.
Abstract: The basic operating principles of an electronic digital computer gas turbine engine control system are presented. Closed loop turbine discharge temperature and speed controls have been implemented; their feasibility was demonstrated through hybrid digital/analog simulation and actual tests of a GE J85 turbojet engine through the start mode to maximum afterburner. Control mode description and results of the analysis and experimental runs are given in this paper.Copyright © 1968 by ASME
1 citations