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Issues

Volume 44
1922
This article was originally published in
Transactions of the American Society of Mechanical Engineers
Transactions of the American Society of Mechanical Engineers Cover Image for Volume 44
ISSN 0097-6822

Foreword

Transactions of the American Society of Mechanical Engineers: Volume 44 — 1922
Trans. ASME. January 1922, 44: 1–2. doi: https://doi.org/10.1115/1.4058155
View articletitled, Transactions of the American Society of Mechanical Engineers: Volume 44 — 1922
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Research Papers

Cotton–Ginning Machinery
Solomon E. Gillespie
Trans. ASME. January 1922, 44: 15–37. doi: https://doi.org/10.1115/1.4058156
View articletitled, Cotton–Ginning Machinery
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Topics: Circular saws , Condensers (steam plant) , Dimensions , Inventions , Machinery , Municipal solid wastes , Packing (Shipments) , Packings (Cushioning) , Pressing , Rollers
Material-Handling Equipment as Used in the Iron and Steel Industry
F. L. Leach
Trans. ASME. January 1922, 44: 45–67. doi: https://doi.org/10.1115/1.4058158
View articletitled, Material-Handling Equipment as Used in the Iron and Steel Industry
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Topics: Iron , Machinery , Materials handling , Steel , Steel industry
The Accuracy of Boiler Tests
Alfred Cotton
Trans. ASME. January 1922, 44: 69–83. doi: https://doi.org/10.1115/1.4058160
View articletitled, The Accuracy of Boiler Tests
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Topics: Boilers , Coal , Errors , Water , Computation , Steam
Using Exhaust Energy in Reciprocating Engines
J. Stumpf, C. C. Trump
Trans. ASME. January 1922, 44: 107–120. doi: https://doi.org/10.1115/1.4058162
View articletitled, Using Exhaust Energy in Reciprocating Engines
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Topics: Exhaust systems , Piston engines , Cylinders , Steam engines , Engines , Clearances (Engineering) , Construction , Design , Economics , Electric motors
Some Notes on Railway Refrigerator Cars
W. H. Winterrowd
Trans. ASME. January 1922, 44: 125–165. doi: https://doi.org/10.1115/1.4058164
View articletitled, Some Notes on Railway Refrigerator Cars
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Topics: Automobiles , Railroads , Construction , Cooling , Design , Maintenance , Railroad construction , Refrigeration , Temperature
Reduction of Fuel Wastes in the Steel Industry
F. G. Cutler
Trans. ASME. January 1922, 44: 167–176. doi: https://doi.org/10.1115/1.4058165
View articletitled, Reduction of Fuel Wastes in the Steel Industry
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Topics: Fuels , Steel industry , Heat , Heating , Blast furnaces , Pig iron , Steel , Furnaces , Coke , Economics
The Control of Boiler Operation: Simplified Formulas for Calculating Chimney, Combustion and Absorption Losses — A Proposed Fuel Unit for Bituminous Coal, Etc.
E. A. Uehling
Trans. ASME. January 1922, 44: 189–212. doi: https://doi.org/10.1115/1.4058167
View articletitled, The Control of Boiler Operation: Simplified Formulas for Calculating Chimney, Combustion and Absorption Losses — A Proposed Fuel Unit for Bituminous Coal, Etc.
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Topics: Absorption , Boilers , Coal , Combustion , Fuels , Heat losses , Carbon , Engineers , Hydrogen
Boiler-Room Performance and Practice of Colfax Station, Duquesne Light Company
C. W. E. Clarke
Trans. ASME. January 1922, 44: 217–250. doi: https://doi.org/10.1115/1.4058169
View articletitled, Boiler-Room Performance and Practice of Colfax Station, Duquesne Light Company
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Topics: Boilers , Carbon dioxide , Feedwater , Fuels , Heat , Oxygen , Pipes , Temperature , Water
Centrifugal Casting
Leon Cammen
Trans. ASME. January 1922, 44: 261–293. doi: https://doi.org/10.1115/1.4058171
View articletitled, Centrifugal Casting
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Topics: Casting , Centrifugal casting (Process) , Liquid metals , Machinery , Mathematics , Metalwork , Patents , Plates (structures) , Stress , Temperature control
Heat Losses From Bare and Covered Wrought-Iron Pipe at Temperatures Up to 800 Deg. Fahr.
R. H. Heilman
Trans. ASME. January 1922, 44: 299–310. doi: https://doi.org/10.1115/1.4058173
View articletitled, Heat Losses From Bare and Covered Wrought-Iron Pipe at Temperatures Up to 800 Deg. Fahr.
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Topics: Heat losses , Iron , Pipes , Temperature , High temperature , Chemical processes , Industrial research , Steam , Superheating
The Evaporation of a Liquid Into a Gas
W. K. Lewis
Trans. ASME. January 1922, 44: 325–332. doi: https://doi.org/10.1115/1.4058175
View articletitled, The Evaporation of a Liquid Into a Gas
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Topics: Evaporation , Coolers , Dehumidifiers , Diffusion (Physics) , Heat , Heat transfer , Humidifiers , Thermometers , Water , Wireless power transfer
Power Development in the Southeast
Charles G. Adsit
Trans. ASME. January 1922, 44: 341–355. doi: https://doi.org/10.1115/1.4058177
View articletitled, Power Development in the Southeast
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New Developments in Hydroelectric Power-Plant Design
J. A. Sirnit
Trans. ASME. January 1922, 44: 361–375. doi: https://doi.org/10.1115/1.4058179
View articletitled, New Developments in Hydroelectric Power-Plant Design
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Topics: Design , Hydropower , Power stations , Silencers , Water , Construction , Dams , Floods , Rivers , Testing
Report Upon Efficiency Tests of a 60,000-Kw. Cross-Compound Triple-Cylinder Steam Turbine
Herbert B. Reynolds, Walter F. Hovey
Trans. ASME. January 1922, 44: 377–398. doi: https://doi.org/10.1115/1.4058180
View articletitled, Report Upon Efficiency Tests of a 60,000-Kw. Cross-Compound Triple-Cylinder Steam Turbine
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Steel for Forge Welding
Frank N. Speller
Trans. ASME. January 1922, 44: 399–407. doi: https://doi.org/10.1115/1.4058181
View articletitled, Steel for Forge Welding
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Topics: Forge welding , Steel , Carbon , Tensile strength , Welding , Boilers , Construction , Hammers , Heat , Pipelines
National Leadership
Dexter S. Kimball
Trans. ASME. January 1922, 44: 411–420. doi: https://doi.org/10.1115/1.4058183
View articletitled, National Leadership
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Topics: Leadership
The Size of Dry-Vacuum Pump to Employ in a Given Case: A Rapid and Practically Accurate Method for Its Determination, Applying to Any Set of Conditions
Edward W. Noyes, Harold V. Sturtevant
Trans. ASME. January 1922, 44: 437–452. doi: https://doi.org/10.1115/1.4058184
View articletitled, The Size of Dry-Vacuum Pump to Employ in a Given Case: A Rapid and Practically Accurate Method for Its Determination, Applying to Any Set of Conditions
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Diesel-Engine Clutch Used in the German Submarine “U-117”
W. H. Nicholson
Trans. ASME. January 1922, 44: 461–470. doi: https://doi.org/10.1115/1.4058186
View articletitled, Diesel-Engine Clutch Used in the German Submarine “U-117”
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Stresses in Cylindrically Shaped Rotors of Uniform Diameter
C. M. Laffoon
Trans. ASME. January 1922, 44: 471–501. doi: https://doi.org/10.1115/1.4058187
View articletitled, Stresses in Cylindrically Shaped Rotors of Uniform Diameter
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Topics: Rotors , Stress , Machinery , Rotating disks , Steam turbines
Stress Distribution in Electric-Railway Motor Pinions as Determined by the Photo-Elastic Method
Paul Heymans, A. L. Kimball, Jr.
Trans. ASME. January 1922, 44: 513–537. doi: https://doi.org/10.1115/1.4058189
View articletitled, Stress Distribution in Electric-Railway Motor Pinions as Determined by the Photo-Elastic Method
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Topics: Motors , Railroads , Stress concentration , Engines , Gears , Mechanical testing , Rupture , Stress , Transparency
The Elasticity of Pipe Bends
Sabin Crocker, Sterling S. Sanford
Trans. ASME. January 1922, 44: 547–581. doi: https://doi.org/10.1115/1.4058191
View articletitled, The Elasticity of Pipe Bends
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Safety Engineering in the Compression of Gases
A. D. Risteen
Trans. ASME. January 1922, 44: 599–612. doi: https://doi.org/10.1115/1.4058193
View articletitled, Safety Engineering in the Compression of Gases
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Topics: Compression , Gases , Safety engineering , Bearings , Carbon dioxide , Hazards , Hydrogen , Nitrogen , Oxygen , Storage
A New System of Helical Involute Gearing for Use on Metal Planers
Forrest E. Cardullo
Trans. ASME. January 1922, 44: 615–625. doi: https://doi.org/10.1115/1.4058195
View articletitled, A New System of Helical Involute Gearing for Use on Metal Planers
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Steam Utilization in a Modern Newsprint Mill
S. W. Slater, J. E. A. Warner
Trans. ASME. January 1922, 44: 631–652. doi: https://doi.org/10.1115/1.4058197
View articletitled, Steam Utilization in a Modern Newsprint Mill
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Torsion of Crankshafts
S. Timoshenko
Trans. ASME. January 1922, 44: 653–667. doi: https://doi.org/10.1115/1.4058198
View articletitled, Torsion of Crankshafts
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Topics: Bearings , Clearances (Engineering) , Dynamics (Mechanics) , Engines , Torsion
The Design of Cooling Towers
C. S. Robinson
Trans. ASME. January 1922, 44: 669–681. doi: https://doi.org/10.1115/1.4058199
View articletitled, The Design of Cooling Towers
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Topics: Cooling towers , Design , Engineers
Ash Handling
John Hunter, Alfred Cotton
Trans. ASME. January 1922, 44: 687–745. doi: https://doi.org/10.1115/1.4058201
View articletitled, Ash Handling
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Topics: Ash , Automobiles , Boilers , Construction , Conveyor systems , Design , Doors , Fluids , Hoists , Settling basins
The Development and Use of the Modern Chain Grate
T. A. Marsh
Trans. ASME. January 1922, 44: 773–785. doi: https://doi.org/10.1115/1.4058203
View articletitled, The Development and Use of the Modern Chain Grate
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Topics: Chain , Fireplaces , Combustion , Coal , Boilers , Cooling , Design , Fire , Pressure
Overfeed Stokers of the Inclined Type
Geo. I. Bouton
Trans. ASME. January 1922, 44: 786–796. doi: https://doi.org/10.1115/1.4058204
View articletitled, Overfeed Stokers of the Inclined Type
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The Design and Operation of Underfeed Stokers
H. F. Lawrence
Trans. ASME. January 1922, 44: 797–814. doi: https://doi.org/10.1115/1.4058205
View articletitled, The Design and Operation of Underfeed Stokers
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Topics: Adhesion , Boilers , Cement clinkers , Coal , Design , Fans , High temperature
Design of Flywheels for Motor-Driven Impulse Wheels
C. O. Rhys
Trans. ASME. January 1922, 44: 835–850. doi: https://doi.org/10.1115/1.4058207
View articletitled, Design of Flywheels for Motor-Driven Impulse Wheels
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Topics: Design , Engines , Flywheels , Impulse (Physics) , Motors , Wheels , Machinery , Torque , Dynamometers , Steam engines
Effect of Pulsations on Flow of Gases
Horace Judd, Donal B. Pheley
Trans. ASME. January 1922, 44: 853–902. doi: https://doi.org/10.1115/1.4058209
View articletitled, Effect of Pulsations on Flow of Gases
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Topics: Air flow , Compressors , Errors , Flanges , Flow (Dynamics) , Flowmeters , Fluid measurement , Fluids , Gas flow , Gases
Orifice Coefficients — Data and Results of Tests
Jacob M. Spitzglass
Trans. ASME. January 1922, 44: 919–955. doi: https://doi.org/10.1115/1.4058211
View articletitled, Orifice Coefficients — Data and Results of Tests
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Refinery and Rolling Mill for Monel Metal, Huntington, W. Va.
W. L. Wotherspoon
Trans. ASME. January 1922, 44: 975–1003. doi: https://doi.org/10.1115/1.4058213
View articletitled, Refinery and Rolling Mill for Monel Metal, Huntington, W. Va.
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Topics: Metals , Rolling mills , Design , Economics
Tests of a Type W Stirling Boiler at the Connors Creek Power House of the Detroit Edison Company
Paul W. Thompson
Trans. ASME. January 1922, 44: 1005–1043. doi: https://doi.org/10.1115/1.4058214
View articletitled, Tests of a Type W Stirling Boiler at the Connors Creek Power House of the Detroit Edison Company
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Topics: Boilers , Design , Coal , Economics , Flue gases , Flues , Steam , Stress , Temperature
Feed Heating for High Thermal Efficiency: Economies of 25,000-kw. Power Stations Using Single- and Multiple-Stage Condenser Heaters, With and Without Economizers, Determined to Demonstrate the Effect of Varying the Feedwater Temperature
Linn Helander
Trans. ASME. January 1922, 44: 1055–1087. doi: https://doi.org/10.1115/1.4058216
View articletitled, Feed Heating for High Thermal Efficiency: Economies of 25,000-kw. Power Stations Using Single- and Multiple-Stage Condenser Heaters, With and Without Economizers, Determined to Demonstrate the Effect of Varying the Feedwater Temperature
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Topics: Condensers (steam plant) , Feedwater , Heating , Power stations , Temperature , Thermal efficiency
The Commercial Economy of High Pressure and High Superheat in the Central Station
Geo. A. Orrok
Trans. ASME. January 1922, 44: 1119–1153. doi: https://doi.org/10.1115/1.4058218
View articletitled, The Commercial Economy of High Pressure and High Superheat in the Central Station
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High-Temperature and High-Pressure Steam Lines
B. N. Broido
Trans. ASME. January 1922, 44: 1199–1225. doi: https://doi.org/10.1115/1.4058220
View articletitled, High-Temperature and High-Pressure Steam Lines
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Ten Years’ Progress in Management
L. P. Alford
Trans. ASME. January 1922, 44: 1243–1274. doi: https://doi.org/10.1115/1.4058222
View articletitled, Ten Years’ Progress in Management
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The Degasification of Boiler Feedwater
J. R. McDermet
Trans. ASME. January 1922, 44: 1297–1306. doi: https://doi.org/10.1115/1.4058224
View articletitled, The Degasification of Boiler Feedwater
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Lumber Dry Kilns
Thomas D. Perry
Trans. ASME. January 1922, 44: 1307–1319. doi: https://doi.org/10.1115/1.4058225
View articletitled, Lumber Dry Kilns
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Topics: Kilns , Lumber , Drying , Condensers (steam plant) , Cycles , Engineers , Equilibrium (Physics)

Discussions and Closures

Discussion: “Cotton–Ginning Machinery” (Gillespie, Solomon E., 1922, Trans. ASME, 44, pp. 15–37)
A. W. Merkel, W. E. Caldwell
Trans. ASME. January 1922, 44: 37–43. doi: https://doi.org/10.1115/1.4058157
View articletitled, Discussion: “Cotton–Ginning Machinery” (Gillespie, Solomon E., 1922, Trans. ASME, 44, pp. 15–37)
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Topics: Machinery
Discussion: “Material-Handling Equipment as Used in the Iron and Steel Industry” (Leach, F. L., 1922, Trans. ASME, 44, pp. 45–67)
F. L. Estep, Stafford Montgomery, E. L. Shaner
Trans. ASME. January 1922, 44: 68. doi: https://doi.org/10.1115/1.4058159
View articletitled, Discussion: “Material-Handling Equipment as Used in the Iron and Steel Industry” (Leach, F. L., 1922, Trans. ASME, 44, pp. 45–67)
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Discussion: “The Accuracy of Boiler Tests” (Cotton, Alfred, 1922, Trans. ASME, 44, pp. 69–83)
Grant D. Bradshaw, E. H. Tenney, John E. Bell, G. C. Vennum, G. R. Davison, C. F. Hirshfeld, C. Harold Berry, Paul W. Thompson, W. A. Carter, H. Kreisinger, R. F. Burke, W. D. Ennis, Daniel Adamson, Alfred Cotton
Trans. ASME. January 1922, 44: 83–106. doi: https://doi.org/10.1115/1.4058161
View articletitled, Discussion: “The Accuracy of Boiler Tests” (Cotton, Alfred, 1922, Trans. ASME, 44, pp. 69–83)
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Discussion: “Using Exhaust Energy in Reciprocating Engines” (Stumpf, J., and Trump, C. C., 1922, Trans. ASME, 44, pp. 107–120)
D. B. Prentice, J. D. Riggs, J. Stumpf
Trans. ASME. January 1922, 44: 120–124. doi: https://doi.org/10.1115/1.4058163
View articletitled, Discussion: “Using Exhaust Energy in Reciprocating Engines” (Stumpf, J., and Trump, C. C., 1922, Trans. ASME, 44, pp. 107–120)
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Discussion: “Reduction of Fuel Wastes in the Steel Industry” (Cutler, F. G., 1922, Trans. ASME, 44, pp. 167–176)
F. J. Crolius, R. S. Sage, E. Pragst, F. L. Estep, Walter N. Flanagan, W. Trinks, F. G. Cutler
Trans. ASME. January 1922, 44: 176–188. doi: https://doi.org/10.1115/1.4058166
View articletitled, Discussion: “Reduction of Fuel Wastes in the Steel Industry” (Cutler, F. G., 1922, Trans. ASME, 44, pp. 167–176)
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Topics: Fuels , Steel industry
Discussion: “The Control of Boiler Operation: Simplified Formulas for Calculating Chimney, Combustion and Absorption Losses — A Proposed Fuel Unit for Bituminous Coal, Etc.” (Uehling, E. A., 1922, Trans. ASME, 44, pp. 189–212)
A. T. Hutchins, Nevin E. Funk, F. G. Cutler, E. A. Uehling
Trans. ASME. January 1922, 44: 212–215. doi: https://doi.org/10.1115/1.4058168
View articletitled, Discussion: “The Control of Boiler Operation: Simplified Formulas for Calculating Chimney, Combustion and Absorption Losses — A Proposed Fuel Unit for Bituminous Coal, Etc.” (Uehling, E. A., 1922, Trans. ASME, 44, pp. 189–212)
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Discussion: “Boiler-Room Performance and Practice of Colfax Station, Duquesne Light Company” (Clarke, C. W. E., 1922, Trans. ASME, 44, pp. 217–250)
T. E. Keating, B. N. Broido, Nevin E. Funk, D. Robert Yarnall, A. T. Hutchins, E. A. Trinks, H. H. Bailey, W. A. Carter, E. K. Davis, Paul Yopp, C. W. E. Clarke
Trans. ASME. January 1922, 44: 251–260. doi: https://doi.org/10.1115/1.4058170
View articletitled, Discussion: “Boiler-Room Performance and Practice of Colfax Station, Duquesne Light Company” (Clarke, C. W. E., 1922, Trans. ASME, 44, pp. 217–250)
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Discussion: “Centrifugal Casting” (Cammen, Leon, 1922, Trans. ASME, 44, pp. 261–293)
James B. Ladd, W. M. Corse, Leon Cammen
Trans. ASME. January 1922, 44: 294–297. doi: https://doi.org/10.1115/1.4058172
View articletitled, Discussion: “Centrifugal Casting” (Cammen, Leon, 1922, Trans. ASME, 44, pp. 261–293)
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Discussion: “Heat Losses From Bare and Covered Wrought-Iron Pipe at Temperatures Up to 800 Deg. Fahr.” (Heilman, R. H., 1922, Trans. ASME, 44, pp. 299–310)
B. N. Broido, L. L. Barrett, L. B. McMillan, R. H. Heilman
Trans. ASME. January 1922, 44: 310–323. doi: https://doi.org/10.1115/1.4058174
View articletitled, Discussion: “Heat Losses From Bare and Covered Wrought-Iron Pipe at Temperatures Up to 800 Deg. Fahr.” (Heilman, R. H., 1922, Trans. ASME, 44, pp. 299–310)
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Discussion: “The Evaporation of a Liquid Into a Gas” (Lewis, W. K., 1922, Trans. ASME, 44, pp. 325–332)
W. H. Carrier, W. K. Lewis
Trans. ASME. January 1922, 44: 332–340. doi: https://doi.org/10.1115/1.4058176
View articletitled, Discussion: “The Evaporation of a Liquid Into a Gas” (Lewis, W. K., 1922, Trans. ASME, 44, pp. 325–332)
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Discussion: “Power Development in the Southeast” (Adsit, Charles G., 1922, Trans. ASME, 44, pp. 341–355)
O. G. Thurlow, F. P. Cummings, C. S. Brown, George A. Orrok, W. F. Wilcox, Warren M. Wells, Charles G. Adsit
Trans. ASME. January 1922, 44: 355–359. doi: https://doi.org/10.1115/1.4058178
View articletitled, Discussion: “Power Development in the Southeast” (Adsit, Charles G., 1922, Trans. ASME, 44, pp. 341–355)
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Discussion: “Steel for Forge Welding” (Speller, Frank N., 1922, Trans. ASME, 44, pp. 399–407)
Stanley G. Child, Frank N. Speller
Trans. ASME. January 1922, 44: 407–409. doi: https://doi.org/10.1115/1.4058182
View articletitled, Discussion: “Steel for Forge Welding” (Speller, Frank N., 1922, Trans. ASME, 44, pp. 399–407)
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Discussion: “The Size of Dry-Vacuum Pump to Employ in a Given Case: A Rapid and Practically Accurate Method for Its Determination, Applying to Any Set of Conditions” (Noyes, Edward W., and Sturtevant, Harold V., 1922, Trans. ASME, 44, pp. 437–452)
Wm. G. Christy, A. L. McHugh, S. A. Moss, S. B. Redfield, Edward W. Noyes, Harold V. Sturtevant
Trans. ASME. January 1922, 44: 452–459. doi: https://doi.org/10.1115/1.4058185
View articletitled, Discussion: “The Size of Dry-Vacuum Pump to Employ in a Given Case: A Rapid and Practically Accurate Method for Its Determination, Applying to Any Set of Conditions” (Noyes, Edward W., and Sturtevant, Harold V., 1922, Trans. ASME, 44, pp. 437–452)
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Topics: Pumps , Vacuum
Discussion: “Stresses in Cylindrically Shaped Rotors of Uniform Diameter” (Laffoon, C. M., 1922, Trans. ASME, 44, pp. 471–501)
G. M. Eaton, William Knight, A. L. Kimball, Paul Heymans, S. A. Moss, Alphonse A. Adler
Trans. ASME. January 1922, 44: 501–512. doi: https://doi.org/10.1115/1.4058188
View articletitled, Discussion: “Stresses in Cylindrically Shaped Rotors of Uniform Diameter” (Laffoon, C. M., 1922, Trans. ASME, 44, pp. 471–501)
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Discussion: “Stress Distribution in Electric-Railway Motor Pinions as Determined by the Photo-Elastic Method” (Heymans, Paul, and Kimball, Jr., A. L., 1922, Trans. ASME, 44, pp. 513–537)
S. Timoshenko, J. O. Madison, Alphonse A. Adler, E. O. Waters, Paul Heymans, A. L. Kimball, Jr.
Trans. ASME. January 1922, 44: 537–545. doi: https://doi.org/10.1115/1.4058190
View articletitled, Discussion: “Stress Distribution in Electric-Railway Motor Pinions as Determined by the Photo-Elastic Method” (Heymans, Paul, and Kimball, Jr., A. L., 1922, Trans. ASME, 44, pp. 513–537)
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Topics: Engines , Motors , Railroads , Stress concentration
Discussion: “The Elasticity of Pipe Bends” (Crocker, Sabin, and Sanford, Sterling S., 1922, Trans. ASME, 44, pp. 547–581)
George A. Orrok, J. A. Freiday, Francis Hodgkinson, Robert Cramer, William B. Campbell, H. LeRoy Whitney, S. Timoshenko, Sabin Crocker, Sterling S. Sanford
Trans. ASME. January 1922, 44: 581–598. doi: https://doi.org/10.1115/1.4058192
View articletitled, Discussion: “The Elasticity of Pipe Bends” (Crocker, Sabin, and Sanford, Sterling S., 1922, Trans. ASME, 44, pp. 547–581)
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Topics: Elasticity , Pipe bends
Discussion: “Safety Engineering in the Compression of Gases” (Risteen, A. D., 1922, Trans. ASME, 44, pp. 599–612)
Frank Creelman, Mayo D. Hersey, E. P. Warner
Trans. ASME. January 1922, 44: 612–614. doi: https://doi.org/10.1115/1.4058194
View articletitled, Discussion: “Safety Engineering in the Compression of Gases” (Risteen, A. D., 1922, Trans. ASME, 44, pp. 599–612)
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Topics: Compression , Gases , Safety engineering
Discussion: “A New System of Helical Involute Gearing for Use on Metal Planers” (Cardullo, Forrest E., 1922, Trans. ASME, 44, pp. 615–625)
Charles Meier, F. K. Hendrickson, Earle Buckingham, G. M. Eaton, Forrest E. Cardullo
Trans. ASME. January 1922, 44: 625–630. doi: https://doi.org/10.1115/1.4058196
View articletitled, Discussion: “A New System of Helical Involute Gearing for Use on Metal Planers” (Cardullo, Forrest E., 1922, Trans. ASME, 44, pp. 615–625)
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Topics: Metals
Discussion: “The Design of Cooling Towers” (Robinson, C. S., 1922, Trans. ASME, 44, pp. 669–681)
B. H. Coffey, W. M. Grosvenor, C. S. Robinson
Trans. ASME. January 1922, 44: 682–685. doi: https://doi.org/10.1115/1.4058200
View articletitled, Discussion: “The Design of Cooling Towers” (Robinson, C. S., 1922, Trans. ASME, 44, pp. 669–681)
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Discussion: “Ash Handling” (Hunter, John, and Cotton, Alfred, 1922, Trans. ASME, 44, pp. 687–745)
T. A. Marsh, F. B. Allen, Nevin E. Funk, Nixon W. Elmer, I. E. Moultrop, T. Maynz, Sam H. Libby, E. H. Tenney, Rankin Eastin, R. H. Beaumont, George G. Bell, Eugene Hahn, Charles E. Prout, John Hunter, Alfred Cotton
Trans. ASME. January 1922, 44: 746–771. doi: https://doi.org/10.1115/1.4058202
View articletitled, Discussion: “Ash Handling” (Hunter, John, and Cotton, Alfred, 1922, Trans. ASME, 44, pp. 687–745)
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Discussion: “The Development and Use of the Modern Chain Grate”, “Overfeed Stokers of the Inclined Type”, and “The Design and Operation of Underfeed Stokers” (Marsh, T. A., Bouton, Geo. I., and Lawrence, H. F., 1922, Trans. ASME, 44, pp. 773–814)
A. H. Blackburn, J. M. Drabelle, Walter N. Polakov, J. R. Fortune, Alex. D. Bailey, Wm. R. Roney, David Moffat Myers, J. E. Woodwell, Theodore Maynz, Edwin Lundgren, Albert A. Cary, Alfred B. Carhart, C. G. Spencer, H. G. Heaton, Henry M. Burke, J. B. Crane, Joseph J. Nelis, Lester C. Bosler, A. D. White, R. Sanford Riley, W. J. Wohlenberg, H. O. Pond, R. H. Beaumont, W. G. Freer, T. A. Marsh, George I. Bouton, H. F. Lawrence
Trans. ASME. January 1922, 44: 814–834. doi: https://doi.org/10.1115/1.4058206
View articletitled, Discussion: “The Development and Use of the Modern Chain Grate”, “Overfeed Stokers of the Inclined Type”, and “The Design and Operation of Underfeed Stokers” (Marsh, T. A., Bouton, Geo. I., and Lawrence, H. F., 1922, Trans. ASME, 44, pp. 773–814)
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Discussion: “Design of Flywheels for Motor-Driven Impulse Wheels” (Rhys, C. O., 1922, Trans. ASME, 44, pp. 835–850)
Alphonse A. Adler, C. O. Rhys
Trans. ASME. January 1922, 44: 850–851. doi: https://doi.org/10.1115/1.4058208
View articletitled, Discussion: “Design of Flywheels for Motor-Driven Impulse Wheels” (Rhys, C. O., 1922, Trans. ASME, 44, pp. 835–850)
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Topics: Design , Engines , Flywheels , Impulse (Physics) , Motors , Wheels
Discussion: “Effect of Pulsations on Flow of Gases” (Judd, Horace, and Pheley, Donal B., 1922, Trans. ASME, 44, pp. 853–902)
H. N. Packard, J. M. Spitzglass, R. J. S. Pigott, John L. Hodgson, Horace Judd, Donal B. Pheley
Trans. ASME. January 1922, 44: 902–918. doi: https://doi.org/10.1115/1.4058210
View articletitled, Discussion: “Effect of Pulsations on Flow of Gases” (Judd, Horace, and Pheley, Donal B., 1922, Trans. ASME, 44, pp. 853–902)
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Topics: Gas flow
Discussion: “Orifice Coefficients — Data and Results of Tests” (Spitzglass, Jacob M., 1922, Trans. ASME, 44, pp. 919–955)
R. J. S. Pigott, J. W. Hogg, A. F. Spitzglass, George S. Hendrickson, C. A. Dawley, E. G. Bailey, John L. Hodgson, Jacob M. Spitzglass
Trans. ASME. January 1922, 44: 955–974. doi: https://doi.org/10.1115/1.4058212
View articletitled, Discussion: “Orifice Coefficients — Data and Results of Tests” (Spitzglass, Jacob M., 1922, Trans. ASME, 44, pp. 919–955)
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Discussion: “Tests of a Type W Stirling Boiler at the Connors Creek Power House of the Detroit Edison Company” (Thompson, Paul W., 1922, Trans. ASME, 44, pp. 1005–1043)
L. P. Breckenridge, Benjamin F. Grote, D. S. Jacobus, Paul W. Thompson
Trans. ASME. January 1922, 44: 1043–1054. doi: https://doi.org/10.1115/1.4058215
View articletitled, Discussion: “Tests of a Type W Stirling Boiler at the Connors Creek Power House of the Detroit Edison Company” (Thompson, Paul W., 1922, Trans. ASME, 44, pp. 1005–1043)
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Discussion: “Feed Heating for High Thermal Efficiency: Economies of 25,000-kw. Power Stations Using Single- and Multiple-Stage Condenser Heaters, With and Without Economizers, Determined to Demonstrate the Effect of Varying the Feedwater Temperature” (Helander, Linn, 1922, Trans. ASME, 44, pp. 1055–1087)
G. G. Bell, T. E. Keating, F. H. Rosencrants, Oscar F. Junggren, Francis Hodgkinson, Nevin E. Funk, C. M. Hardin, Linn Helander
Trans. ASME. January 1922, 44: 1088–1117. doi: https://doi.org/10.1115/1.4058217
View articletitled, Discussion: “Feed Heating for High Thermal Efficiency: Economies of 25,000-kw. Power Stations Using Single- and Multiple-Stage Condenser Heaters, With and Without Economizers, Determined to Demonstrate the Effect of Varying the Feedwater Temperature” (Helander, Linn, 1922, Trans. ASME, 44, pp. 1055–1087)
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Discussion: “The Commercial Economy of High Pressure and High Superheat in the Central Station” (Orrok, Geo. A., 1922, Trans. ASME, 44, pp. 1119–1153)
John A. Stevens, Carl J. Sittinger, I. E. Moultrop, Peter Junkersfeld, A. M. Houser, C. H. Smoot, W. J. Wohlenberg, D. S. Jacobus, V. T. Malcolm, Charles R. Phillips, Robert Cramer, Henry D. Hibbard, Max Toltz, Francis Hodgkinson, Nevin E. Funk, Oscar F. Junggren, H. B. Oatley, T. E. Keating, H. LeRoy Whitney, E. H. Foster, C. C. Trump, Geo. A. Orrok
Trans. ASME. January 1922, 44: 1154–1197. doi: https://doi.org/10.1115/1.4058219
View articletitled, Discussion: “The Commercial Economy of High Pressure and High Superheat in the Central Station” (Orrok, Geo. A., 1922, Trans. ASME, 44, pp. 1119–1153)
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Topics: Economics , High pressure (Physics)
Discussion: “High-Temperature and High-Pressure Steam Lines” (Broido, B. N., 1922, Trans. ASME, 44, pp. 1199–1225)
E. G. Bailey, L. B. McMillan, L. L. Barrett, Geo. A. Orrok, J. A. Barnes, W. H. Armacost, C. W. Gordon, J. H. Lawrence, B. N. Broido
Trans. ASME. January 1922, 44: 1226–1242. doi: https://doi.org/10.1115/1.4058221
View articletitled, Discussion: “High-Temperature and High-Pressure Steam Lines” (Broido, B. N., 1922, Trans. ASME, 44, pp. 1199–1225)
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Topics: High pressure (Physics) , High temperature , Steam
Discussion: “Ten Years’ Progress in Management” (Alford, L. P., 1922, Trans. ASME, 44, pp. 1243–1274)
Fred J. Miller, H. A. Person, J. P. Jordan, Dexter S. Kimball, R. L. Sackett, David B. Rushmore, L. W. Wallace, Frank B. Gilbreth, L. M. Gilbreth, Wilson P. Hunt, H. A. Soverhill, Max Sklovsky, L. P. Alford
Trans. ASME. January 1922, 44: 1274–1296. doi: https://doi.org/10.1115/1.4058223
View articletitled, Discussion: “Ten Years’ Progress in Management” (Alford, L. P., 1922, Trans. ASME, 44, pp. 1243–1274)
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Discussion: “Lumber Dry Kilns” (Perry, Thomas D., 1922, Trans. ASME, 44, pp. 1307–1319)
C. A. Cutler, Burritt A. Parks, Kenneth Redman, Thomas D. Perry
Trans. ASME. January 1922, 44: 1320–1327. doi: https://doi.org/10.1115/1.4058226
View articletitled, Discussion: “Lumber Dry Kilns” (Perry, Thomas D., 1922, Trans. ASME, 44, pp. 1307–1319)
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Reports

Effects of Large Sudden Steam Discharges From Boilers: Report of Research Sub-Committee on Sudden Initial Pop Lift of Safety Valves
P. G. Darling, I. E. Moultrop, E. F. Miller, A. M. Houser, W. E. Jerauld, A. L. Fitch, G. H. Clark, G. S. Coffin
Trans. ASME. January 1922, 44: 1329–1338. doi: https://doi.org/10.1115/1.4058227
View articletitled, Effects of Large Sudden Steam Discharges From Boilers: Report of Research Sub-Committee on Sudden Initial Pop Lift of Safety Valves
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Topics: Boilers , Safety , Steam , Valves
Life Testing of Mechanical Instruments
F. J. Schlink
Trans. ASME. January 1922, 44: 1345–1353. doi: https://doi.org/10.1115/1.4058229
View articletitled, Life Testing of Mechanical Instruments
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Topics: Instrumentation , Life testing
Research Report on Fluid Meters
R. J. S. Pigott
Trans. ASME. January 1922, 44: 1401. doi: https://doi.org/10.1115/1.4058230
View articletitled, Research Report on Fluid Meters
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Topics: Flowmeters

Codes and Standards

A.S.M.E. Boiler Code: Part I — Section 5: Rules for the Construction of Miniature Boilers
Trans. ASME. January 1922, 44: 1339–1344. doi: https://doi.org/10.1115/1.4058228
View articletitled, A.S.M.E. Boiler Code: Part I — Section <em>5</em>: Rules for the Construction of Miniature Boilers
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Topics: Boilers , Construction
All Issues
Enhancement of the Thermodynamic Suppression Effect of Cavitation in a Hydrofoil with a Slit
J. Fluids Eng
Digitalization of Test-Rigs for Model Acceptance Testing of Hydraulic Machines: Gaussian-Process based Digital-Twin of a Turbine on a Hydraulic Test-Rig for Efficiency-Analysis and Test-Automation
J. Fluids Eng
Unsteady Flow and Pressure Pulsation Characteristics in an Ultra-High-Speed Centrifugal Pump Considering the Weak Compressibility Effect
J. Fluids Eng
Development and Validation of Machine-Learned Actuator Line Model for Hydrokinetic Turbine Rotor
J. Fluids Eng (August 2025)
Investigation of the Surface Pressure and Thrust Generated by a Tilt Distributed Electric Propulsion Wing
J. Fluids Eng (August 2025)
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