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1

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A transistorized radon measuring equipment (1966)

Roberts, P B ; Davies, B L

Institute of Physics

In: Journal of Scientific Instruments. 1966; 43(1): 32-35. Published 1966 Jan 01. doi: 10.1088/0950-7671/43/1/308.

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Publication Date: 1966-01-01

Print ISSN: 0950-7671

Topics: Electrical Engineering, Measurement and Control Technology , Physics

Published by Institute of Physics

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2

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Advanced low-NO(x) combustors for supersonic high-altitude gas turbines (1977)

Roberts, P. B.

In: CASI

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Publication Date: 2016-06-07

Description: The impact of gas-turbine-engine-powered aircraft on worldwide pollution was defined within two major areas of contribution. First, the contribution of aircraft to the local air pollution of metropolitan areas and, second, the long-term effects on the chemical balance of the stratosphere of pollutants emitted from future generations of high-altitude, supersonic commercial and military aircraft. Preliminary findings indicate that stratospheric oxides of nitrogen (NOx) emissions may have to be limited to very low levels if, for example, ozone depletion with concomitant increases in sea-level radiation, are to be avoided. Theoretical considerations suggest that (NOx) levels as low as 1.0 gram per kilogram of fuel and less should be attainable from a idealized premixed type of combustor. Experimental rig studies were intended to explore new combustor concepts designed to minimize the formation of (NOx) in aircraft gas turbines and to define their major operational problems and limitations.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: Aircraft Eng. Emissions; p 393-415

Format: application/pdf

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3

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Advanced Low NO Sub X Combustors for Supersonic High-Altitude Aircraft Gas Turbines (1975)

Roberts, P. B. ; White, D. J. ; Shekleton, J. R.

In: CASI

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Publication Date: 2019-06-27

Description: A test rig program was conducted with the objective of evaluating and minimizing the exhaust emissions, in particular NO sub x, of three advanced aircraft combustor concepts at a simulated, high altitude cruise condition. The three combustor designs, all members of the lean reaction, premixed family, are the Jet Induced Circulation (JIC) combustor, the Vortex Air Blast (VAB) combustor, and a catalytic combustor. They were rig tested in the form of reverse flow can combustors in the 0.127 m. (5.0 in.) size range. Various configuration modifications were applied to each of the initial JIC and VAB combustor model designs in an effort to reduce the emissions levels. The VAB combustor demonstrated a NO sub x level of 1.1 gm NO2/kg fuel with essentially 100% combustion efficiency at the simulated cruise combustor condition of 50.7 N/sq cm (5 atm), 833 K (1500 R) inlet pressure and temperature respectively and 1778 K (3200 R) outlet temperature on Jet-A1 fuel. Early tests on the catalytic combustor were unsuccessful due to a catalyst deposition problem and were discontinued in favor of the JIC and VAB tests. In addition emissions data were obtained on the JIC and VAB combustors at low combustor inlet pressure and temperatures that indicate the potential performance at engine off-design conditions.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-CR-134889 , RDR-1814

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4

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Development of a low NO/x/ lean premixed annular combustor (1981)

Sekas, N. J. ; Kubasco, A. J. ; Roberts, P. B.

In: Other Sources

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Publication Date: 2019-07-13

Description: The results of an experimental atmospheric rig test program developed to define a low NO(x) annular combustor of 0.66 m diameter for high-altitude aircraft applications are presented. The test program strategy adopted evaluates the emission characteristics of a baseline configuration and subsequently examines the sensitivity of the emission signatures to variations in the key design features. The lean premixed combustor in axisymmetric annular form demonstrates the capability of operating at reduced-pressure, simulated high-altitude, supersonic cruise conditions with NO(x) emissions below 1.0 g NO2/kg fuel. The testing shows that for the full range of low emissions operation from idle to cruise, a variable dilution port system is necessary, but that fuel-switching can be avoided and a single fuel injection system used.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: ASME PAPER 81-GT-40 , Gas Turbine Conference and Products Show; Mar 09, 1981 - Mar 12, 1981; Houston, TX

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5

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Advanced low NO/x/ combustors for supersonic high-altitude aircraft gas turbines (1976)

Roberts, P. B. ; White, D. J. ; Shekleton, J. R. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: A test rig program was conducted with the objective of evaluating and minimizing the exhaust emissions, in particular NO(x), of two advanced aircraft combustor concepts at a simulated, high-altitude cruise condition. The two combustor designs, both members of the lean-reaction, pre-mixed family, are known as the Jet Induced Circulation (JIC) combustor and the Vortex Air Blast (VAB) combustor and were rig tested in the form of reverse flow can combustors in the 0.127-m size range. Various configuration modifications were applied to each of the initial JIC and VAB combustor model designs in an effort to reduce the emissions levels. The VAB combustor demonstrated a NO(x) level of 1.1 gm NO2/kg fuel with essentially 100 percent combustion efficiency at the simulated cruise combustor condition of 507 kPa, 833 K inlet pressure and temperature, respectively and 1778 K outlet temperature on Jet-A1 fuel. In addition, emissions data were obtained at low combustor inlet pressure and temperatures that indicate the potential performance at engine off-design conditions.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: ASME PAPER 76-GT-12 , Gas Turbine Conference and Products Show; Mar 21, 1976 - Mar 25, 1976; New Orleans, LA

Format: text

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6

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Advanced Low NOx Combustors for Aircraft Gas Turbines (1976)

Roberts, P. B. ; Butze, H. F. ; White, D. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: A test rig program was conducted with the objective of evaluating and minimizing the exhaust emissions, in particular NOx, of two advanced aircraft combustor concepts at a simulated high-altitude cruise condition. The two pre-mixed, lean-reaction designs are known as the Jet Induced Circulation (JIC) combustor and the Vortex Air Blast (VAB) combustor and were rig tested in the form of reverse flow can combustors in the 0.13 ni (5.0 in. ) size range. Various configuration modifications were applied to the JIC and VAB combustor designs in an effort to reduce the emissions levels. The VAB combustor demonstrated a NOx level of 1.11 gm NO2/kg fuel with essentially 100 percent combustion efficiency at the simulated cruise combustor condition of 507 kPa (5 atm), 833 K (1500 R), inlet pressure and temperature respectively, and 1778 K (3200 R) outlet temperature on Jet-Al fuel. These configuration screening tests were carried out on essentially reaction zones only, in order to simplify the construction and modification of the combustors and to uncouple any possible effects on the emissions produced by the dilution flow. Tests were also conducted however at typical engine idle conditions on both combustors equipped with dilution ports in order to better define the problem areas involved in the operation of such concepts over a complete engine operational envelope. Versions of variable-geometry, JIC and VAB annular combustors are proposed.

Keywords: Aircraft Propulsion and Power

Type: AIAA Paper 76-764 , Propulsion; Jul 26, 1976 - Jul 29, 1976; Palo Alto, CA; United States

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Wide range operation of advanced low NOx combustors for supersonic high-altitude aircraft gas turbines (1977)

Fiorito, R. J. ; Roberts, P. B.

In: CASI

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Publication Date: 2019-07-13

Description: An initial rig program tested the Jet Induced Circulation (JIC) and Vortex Air Blast (VAB) systems in small can combustor configurations for NOx emissions at a simulated high altitude, supersonic cruise condition. The VAB combustor demonstrated the capability of meeting the NOx goal of 1.0 g NO2/kg fuel at the cruise condition. In addition, the program served to demonstrate the limited low-emissions range available from the lean, premixed combustor. A follow-on effort was concerned with the problem of operating these lean, premixed combustors with acceptable emissions at simulated engine idle conditions. Various techniques have been demonstrated that allow satisfactory operation on both the JIC and VAB combustors at idle with CO emissions below 20 g/kg fuel. The VAB combustor was limited by flashback/autoignition phenomena at the cruise conditions to a pressure of 8 atmospheres. The JIC combustor was operated up to the full design cruise pressure of 14 atmospheres without encountering an autoignition limitation although the NOx levels, in the 2-3 g NO2/kg fuel range, exceeded the program goal.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-CR-135297 , RDR-1817-22

Format: application/pdf

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8

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Wide range operation of advanced low NOx aircraft gas turbine combustors (1978)

Roberts, P. B. ; Fiorito, R. J. ; Butze, H. F.

In: Other Sources

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Publication Date: 2019-07-13

Description: The paper summarizes the results of an experimental test rig program designed to define and demonstrates techniques which would allow the jet-induced circulation and vortex air blast combustors to operate stably with acceptable emissions at simulated engine idle without compromise to the low NOx emissions under the high-altitude supersonic cruise condition. The discussion focuses on the test results of the key combustor modifications for both the simulated engine idle and cruise conditions. Several range-augmentation techniques are demonstrated that allow the lean-reaction premixed aircraft gas turbine combustor to operate with low NOx emissons at engine cruise and acceptable CO and UHC levels at engine idle. These techniques involve several combinations, including variable geometry and fuel switching designs.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: ASME PAPER 78-GT-128 , American Society of Mechanical Engineers, Gas Turbine Conference and Products Show; Apr 09, 1978 - Apr 13, 1978; London

Format: text

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