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Achievement report for fiscal 1999 on research and development of environment compatible next generation supersonic propulsion system; 1999 nendo kankyo tekigogata jisedai choonsoku suishin system no kenkyu kaihatsu seika hokokusho

Abstract

This paper describes the achievements in fiscal 1999 in development of an environment compatible next generation supersonic propulsion system. In order to reduce NOx emission, AI combustion control was discussed to have fabricated the backfire and autoignition detection device. The SiC photodiode was selected for flame detection, and a heat and pressure resistant fiberoptic probe was fabricated to detect flames in a high-temperature high-pressure combustor casing. These devices were combined to fabricate the backfire and autoignition detecting device, and the verification test was performed. For the purpose of application to an innovative heat resistant combustor liner, a silicon carbide material reinforced with silicon carbide fibers was selected. For continuous ceramic fiber as a reinforcing material, the Si-Zr-C-O system was selected, and the chemical gas-phase impregnation process effective to enhance the fiber/matrix interface characteristics as the matrix forming method was used together with the inexpensive precursor polymer impregnating and sintering process. Investigations were performed on the advanced control functions to reduce fuel consumption as the development of CO2 emission suppressing technology, and on the trends in discrete control. In addition, the optimal engine control logic and the specifications for discrete system constituting devices to be evaluated as the prototype in the  More>>
Authors:
"NONE"
Publication Date:
Sep 01, 2000
Product Type:
Technical Report
Report Number:
JP-NEDO-010018652
Resource Relation:
Other Information: PBD: Sep 2000
Subject:
33 ADVANCED PROPULSION SYSTEMS; ENVIRONMENTAL QUALITY; SUPERSONIC TRANSPORT; NITROGEN OXIDES; AIR POLLUTION ABATEMENT; COMBUSTION CONTROL; ARTIFICIAL INTELLIGENCE; FLASHBACK; SPONTANEOUS COMBUSTION; FLAMES; PHOTODIODES; PROBES; COMBUSTORS; HEAT RESISTANT MATERIALS; COMPOSITE MATERIALS; SILICON CARBIDES; FIBERS; CERAMICS; IMPREGNATION; COMPUTERIZED CONTROL SYSTEMS
OSTI ID:
20208143
Research Organizations:
New Energy and Industrial Technology Development Organization, Tokyo (Japan)
Country of Origin:
Japan
Language:
Japanese
Other Identifying Numbers:
TRN: JN0140918
Availability:
Available to ETDE participating countries only(see www.etde.org); commercial reproduction prohibited; OSTI as DE20208143
Submitting Site:
NEDO
Size:
180 pages
Announcement Date:

Citation Formats

Achievement report for fiscal 1999 on research and development of environment compatible next generation supersonic propulsion system; 1999 nendo kankyo tekigogata jisedai choonsoku suishin system no kenkyu kaihatsu seika hokokusho. Japan: N. p., 2000. Web.
Achievement report for fiscal 1999 on research and development of environment compatible next generation supersonic propulsion system; 1999 nendo kankyo tekigogata jisedai choonsoku suishin system no kenkyu kaihatsu seika hokokusho. Japan.
2000. "Achievement report for fiscal 1999 on research and development of environment compatible next generation supersonic propulsion system; 1999 nendo kankyo tekigogata jisedai choonsoku suishin system no kenkyu kaihatsu seika hokokusho." Japan.
@misc{etde_20208143,
title = {Achievement report for fiscal 1999 on research and development of environment compatible next generation supersonic propulsion system; 1999 nendo kankyo tekigogata jisedai choonsoku suishin system no kenkyu kaihatsu seika hokokusho}
abstractNote = {This paper describes the achievements in fiscal 1999 in development of an environment compatible next generation supersonic propulsion system. In order to reduce NOx emission, AI combustion control was discussed to have fabricated the backfire and autoignition detection device. The SiC photodiode was selected for flame detection, and a heat and pressure resistant fiberoptic probe was fabricated to detect flames in a high-temperature high-pressure combustor casing. These devices were combined to fabricate the backfire and autoignition detecting device, and the verification test was performed. For the purpose of application to an innovative heat resistant combustor liner, a silicon carbide material reinforced with silicon carbide fibers was selected. For continuous ceramic fiber as a reinforcing material, the Si-Zr-C-O system was selected, and the chemical gas-phase impregnation process effective to enhance the fiber/matrix interface characteristics as the matrix forming method was used together with the inexpensive precursor polymer impregnating and sintering process. Investigations were performed on the advanced control functions to reduce fuel consumption as the development of CO2 emission suppressing technology, and on the trends in discrete control. In addition, the optimal engine control logic and the specifications for discrete system constituting devices to be evaluated as the prototype in the future were established. (NEDO)}
place = {Japan}
year = {2000}
month = {Sep}
}