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Volume 71, Issue 8
November 1949
This article was originally published in
Transactions of the American Society of Mechanical Engineers
Issue Cover
ISSN 0097-6822
In this Issue

Research Papers

Thermodynamic Properties of Oxygen, Nitrogen, and Air at Low Temperatures
L. C. Claitor, D. B. Crawford
Trans. ASME. November 1949, 71(8): 885–895. doi: https://doi.org/10.1115/1.4017257
View articletitled, Thermodynamic Properties of Oxygen, Nitrogen, and Air at Low Temperatures
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Topics: Low temperature , Nitrogen , Oxygen , Thermodynamic properties , Pressure , Temperature , Engineering design , Entropy , Equations of state , Heat capacity
Zero-Pressure Thermodynamic Properties of Carbon Dioxide
Serge Gratch
Trans. ASME. November 1949, 71(8): 897–902. doi: https://doi.org/10.1115/1.4017258
View articletitled, Zero-Pressure Thermodynamic Properties of Carbon Dioxide
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Topics: Carbon dioxide , Pressure , Thermodynamic properties , Acoustics , Carbon , Computation , Constants (Physics) , Engineering systems and industry applications , Nuclides , Oxygen
Final Report of the Working Subcommittee of the International Joint Committee on Psychrometric Data
John A. Goff
Trans. ASME. November 1949, 71(8): 903–913. doi: https://doi.org/10.1115/1.4017259
View articletitled, Final Report of the Working Subcommittee of the International Joint Committee on Psychrometric Data
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The Physical Properties of Air With Reference to Meteorological Practice and the Air-Conditioning Engineer
P. A. Sheppard
Trans. ASME. November 1949, 71(8): 915–919. doi: https://doi.org/10.1115/1.4017260
View articletitled, The Physical Properties of Air With Reference to Meteorological Practice and the Air-Conditioning Engineer
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Topics: Air conditioning , Engineers , Meteorology , Water vapor
Viscosity and Other Physical Properties of Gases and Gas Mixtures
J. O. Hirschfelder, R. B. Bird, Ellen L. Spotz
Trans. ASME. November 1949, 71(8): 921–937. doi: https://doi.org/10.1115/1.4017261
View articletitled, Viscosity and Other Physical Properties of Gases and Gas Mixtures
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Topics: Gases , Viscosity , Engineers , Crude oil , Thermodynamic properties
Experimental Determination of Heat Conductivity for Gases
F. G. Keyes
Trans. ASME. November 1949, 71(8): 939. doi: https://doi.org/10.1115/1.4017262
View articletitled, Experimental Determination of Heat Conductivity for Gases
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Topics: Gases , Thermal conductivity
Southwark Station Boiler Air-Flow Model Tests and Operation Results
R. A. Lane, E. L. Morrison
Trans. ASME. November 1949, 71(8): 941–949. doi: https://doi.org/10.1115/1.4017263
View articletitled, Southwark Station Boiler Air-Flow Model Tests and Operation Results
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Topics: Air flow , Boilers , Combustion , Combustion gases , Engineering prototypes , Fuels , Furnaces
External Corrosion of Furnace-Wall Tubes—III Further Data on Sulphate Deposits and the Significance of Iron Sulphide Deposits
R. C. Corey, H. A. Grabowski, B. J. Cross
Trans. ASME. November 1949, 71(8): 951–962. doi: https://doi.org/10.1115/1.4017266
View articletitled, External Corrosion of Furnace-Wall Tubes—III Further Data on Sulphate Deposits and the Significance of Iron Sulphide Deposits
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Topics: Corrosion , Furnaces , Iron , Alkali metals , Coal , Metals , Combustion engineering , Enameling , Slags
Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet
Paul Cohen, R. C. Corey, J. W. Myers
Trans. ASME. November 1949, 71(8): 965–976. doi: https://doi.org/10.1115/1.4017269
View articletitled, Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet
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Topics: Absorption , Furnaces , Gases , Heat , Instrumentation , Temperature , Boilers , Coal , Thermocouples , Combustion
Modern Control Dynamics and Stability Criteria as Applied to Gyroscopic Speed Detectors With Hydraulic Drive
Rene Feiss
Trans. ASME. November 1949, 71(8): 979–988. doi: https://doi.org/10.1115/1.4017275
View articletitled, Modern Control Dynamics and Stability Criteria as Applied to Gyroscopic Speed Detectors With Hydraulic Drive
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Topics: Dynamics (Mechanics) , Hydraulic drive systems , Sensors , Stability , Equations of motion , Frequency response , Gas turbines , Steam , Turbines
Mechanical Vibration of Piping Induced by Gas-Pressure Pulsations
R. C. Baird, I. C. Bechtold
Trans. ASME. November 1949, 71(8): 989–994. doi: https://doi.org/10.1115/1.4017276
View articletitled, Mechanical Vibration of Piping Induced by Gas-Pressure Pulsations
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Topics: Pipes , Pressure , Vibration , Compressors , Acoustics , Economics , Pipelines

Discussions and Closures

Discussion: “Southwark Station Boiler Air-Flow Model Tests and Operation Results” (Lane, R. A., and Morrison, E. L., 1949, Trans. ASME, 71, pp. 941–949)
A. G. Christie
Trans. ASME. November 1949, 71(8): 949–950. doi: https://doi.org/10.1115/1.4017264
View articletitled, Discussion: “Southwark Station Boiler Air-Flow Model Tests and Operation Results” (Lane, R. A., and Morrison, E. L., 1949, Trans. ASME, 71, pp. 941–949)
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Topics: Air flow , Boilers
Closure to “Discussion of ‘Southwark Station Boiler Air-Flow Model Tests and Operation Results’” (1949, Trans. ASME, 71, pp. 949–950)
R. A. Lane, E. L. Morrison
Trans. ASME. November 1949, 71(8): 950. doi: https://doi.org/10.1115/1.4017265
View articletitled, Closure to “Discussion of ‘Southwark Station Boiler Air-Flow Model Tests and Operation Results’” (1949, Trans. ASME, 71, pp. 949–950)
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Topics: Air flow , Boilers
Discussion: “External Corrosion of Furnace-Wall Tubes—III Further Data on Sulphate Deposits and the Significance of Iron Sulphide Deposits” (Corey, R. C., Grabowski, H. A., and Cross, B. J., 1949, Trans. ASME, 71, pp. 951–962)
W. T. Reid
Trans. ASME. November 1949, 71(8): 962–963. doi: https://doi.org/10.1115/1.4017267
View articletitled, Discussion: “External Corrosion of Furnace-Wall Tubes—III Further Data on Sulphate Deposits and the Significance of Iron Sulphide Deposits” (Corey, R. C., Grabowski, H. A., and Cross, B. J., 1949, Trans. ASME, 71, pp. 951–962)
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Topics: Corrosion , Furnaces , Iron
Closure to “Discussion of ‘External Corrosion of Furnace-Wall Tubes—III Further Data on Sulphate Deposits and the Significance of Iron Sulphide Deposits’” (1949, Trans. ASME, 71, pp. 962–963)
R. C. Corey, H. A. Grabowski, B. J. Cross
Trans. ASME. November 1949, 71(8): 963. doi: https://doi.org/10.1115/1.4017268
View articletitled, Closure to “Discussion of ‘External Corrosion of Furnace-Wall Tubes—III Further Data on Sulphate Deposits and the Significance of Iron Sulphide Deposits’” (1949, Trans. ASME, 71, pp. 962–963)
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Topics: Corrosion , Furnaces , Iron
Discussion: “Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet” (Cohen, Paul, Corey, R. C., and Myers, J. W., 1949, Trans. ASME, 71, pp. 965–976)
F. G. Ely
Trans. ASME. November 1949, 71(8): 976. doi: https://doi.org/10.1115/1.4017270
View articletitled, Discussion: “Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet” (Cohen, Paul, Corey, R. C., and Myers, J. W., 1949, Trans. ASME, 71, pp. 965–976)
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Topics: Absorption , Furnaces , Gases , Heat , Instrumentation , Temperature
Discussion: “Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet” (Cohen, Paul, Corey, R. C., and Myers, J. W., 1949, Trans. ASME, 71, pp. 965–976)
R. B. Engdahl, H. E. Carlton
Trans. ASME. November 1949, 71(8): 976. doi: https://doi.org/10.1115/1.4017271
View articletitled, Discussion: “Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet” (Cohen, Paul, Corey, R. C., and Myers, J. W., 1949, Trans. ASME, 71, pp. 965–976)
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Topics: Absorption , Furnaces , Gases , Heat , Instrumentation , Temperature
Discussion: “Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet” (Cohen, Paul, Corey, R. C., and Myers, J. W., 1949, Trans. ASME, 71, pp. 965–976)
W. T. Reid
Trans. ASME. November 1949, 71(8): 976–977. doi: https://doi.org/10.1115/1.4017272
View articletitled, Discussion: “Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet” (Cohen, Paul, Corey, R. C., and Myers, J. W., 1949, Trans. ASME, 71, pp. 965–976)
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Topics: Absorption , Furnaces , Gases , Heat , Instrumentation , Temperature
Discussion: “Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet” (Cohen, Paul, Corey, R. C., and Myers, J. W., 1949, Trans. ASME, 71, pp. 965–976)
R. I. Wheater
Trans. ASME. November 1949, 71(8): 977. doi: https://doi.org/10.1115/1.4017273
View articletitled, Discussion: “Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet” (Cohen, Paul, Corey, R. C., and Myers, J. W., 1949, Trans. ASME, 71, pp. 965–976)
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Topics: Absorption , Furnaces , Gases , Heat , Instrumentation , Temperature
Closure to “Discussions of ‘Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet’” (1949, Trans. ASME, 71, pp. 976–977)
Paul Cohen, R. C. Corey, J. W. Myers
Trans. ASME. November 1949, 71(8): 977–978. doi: https://doi.org/10.1115/1.4017274
View articletitled, Closure to “Discussions of ‘Methods and Instrumentation for Furnace Heat-Absorption Studies: Temperature and Composition of Gases at Furnace Outlet’” (1949, Trans. ASME, 71, pp. 976–977)
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Topics: Absorption , Furnaces , Gases , Heat , Instrumentation , Temperature
Discussion: “Mechanical Vibration of Piping Induced by Gas-Pressure Pulsations” (Baird, R. C., and Bechtold, I. C., 1949, Trans. ASME, 71, pp. 989–994)
J. W. M. DuMond
Trans. ASME. November 1949, 71(8): 994–995. doi: https://doi.org/10.1115/1.4017277
View articletitled, Discussion: “Mechanical Vibration of Piping Induced by Gas-Pressure Pulsations” (Baird, R. C., and Bechtold, I. C., 1949, Trans. ASME, 71, pp. 989–994)
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Topics: Pipes , Pressure , Vibration
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Reviewer's Recognition
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