Chapter 2
Sediment Transportation Mechanics
Publication: Sedimentation Engineering
Get full access to this article
View all available purchase options and get full access to this chapter.
M. REFERENCES
Abdel-Rahmann, N. M., “The Effect of Flowing Water on Cohesive Beds,” Contribution No. 56, Versuchsanstalt fur Wasserbau und Erdbau an der Eidgenossischen Technischen Hochschule, Zurich, Switzerland, 1964, pp. 1–114.
Abraham, G., and Eysink, W. D., “Magnitude of Interfacial Shear in Exchange Flow,” Journal of Hydraulic Research, International Association for Hydraulic Research, Vol. 9, No. 2, 1971.
Acaroglu, E. R., “Sediment Transport in Conveyance Systems,” thesis presented to Cornell University, at Ithaca, N.Y., in 1968, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Ackerman, N. L., and Niyomthai, C., “Development of Solid-Liquid Flow Meter,” Journal of the Hydraulics Division, ASCE, Vol. 90, No. HY2, Proc. Paper 3829, Mar., 1964, pp. 131–139.
Ahmad, M., “Experiments on Design and Behavior of Spur Dikes,” Proceedings, Minnesota International Hydraulics Convention, Minneapolis, Minn., September 1–4, 1953a, pp. 145–159.
Ahmad, N., “Mechanism of Erosion Below Hydraulic Works,” Proceedings, Minnesota International Hydraulics Convention, Minneapolis, Minn., September 1–4, 1953b, pp. 133–143.
Alam, A. M. Z., discussion of “Resistance Relationships for Alluvial Channel Flow,” by R. J. Garde and K. T. Ranga Raju, Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY2, Proc. Paper 5129, Mar., 1967, pp. 91–96.
Alam, A. M. Z., Cheyer, T. F., and Kennedy, J. F., “Friction Factors for Flow in Sand Bed Channels,” Hydrodynamics Laboratory Report No. 78, Massachusetts Institute of Technology, Cambridge, Mass., June, 1966.
Alam, A. M. Z., and Kennedy, J. F., “Friction Factors for Flow in Sand Bed Channels,” Journal of the Hydraulics Division, ASCE, Vol. 95, No. HY6, Proc. Paper 6400, Nov., 1969, pp. 1973–1992.
Albertson, M. L., “Effect of Shape on the Fall Velocity of Gravel Particles,” Proceedings, 5th Hydraulics Conference, University of Iowa Studies in Engineering, Iowa City, Iowa, 1953.
Allen, J. R. L., “A Review of the Origin and Characteristics of Recent Alluvial Sediments, Sedimentology, Vol. 5, No. 2, 1965, pp. 89–191.
Altschaeffl, A. G., discussion of “Erosion and Deposition of Cohesive Soils,” by E. Partheniades, Journal of the Hydraulics Division, ASCE, Vol. 91, No. HY5, Proc. Paper 4464, Sept. 1965, p. 301.
Ambrose, H. H., “The Transportation of Sand in Pipes. Part II Free-Surface Flow,” Proceedings of the Fifth Hydraulics Conference, Engineering Bulletin No. 34, State University of Iowa, Iowa City, Iowa, 1953, pp. 77–88.
American Society of Mechanical Engineers, “Multi-Phase Flow Symposium,” Philadelphia, Pa., 1963, Nov., pp. 17–22.
Anderson, A. G., “Distribution of Sediment in a Natural Stream,” Transactions, American Geophysical Union, Part II, Washington, D.C., 1942, pp. 678–683.
Anderson, A. G., “The Characteristics of Sediment Waves Formed by Flow in Open Channels,” Proceedings, Third Midwestern Conference on Fluid Mechanics, University of Minnesota, Minneapolis, Minn., June, 1953, pp. 379–395.
Anderson, A. G., “On the Development of Stream Meanders,” Proceedings, Twelfth Congress of the International Association for Hydraulic Research, Paper No. A46, Vol. 1, Sept., 1967, pp. 370–378.
Anderson, A. G., “The Use of Submerged Groins for the Regulation of Alluvial Streams,” Proceedings, Symposium on Current Problems in River Training and Sediment Movement, Academy of Sciences, Budapest, Hungary, 1968.
Ansley, R. W., “The Effect of Slimes on Open-Channel Transport of Fluidized Solids,” Transactions, Engineering Institute of Canada, No. A–7, Vol. 6, 1962.
Ansley, R. W., “Open Channel Transport of Fluidized Solids,” thesis presented to the University of Alberta, at Edmonton, Alberta, Canada, in 1963, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Apperly, L. W., “Effect of Turbulence on Sediment Entrainment,” thesis presented to the University of Auckland, Auckland, New Zealand, in 1968, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
ASCE, “Friction Factors in Open Channels,” Progress Report of the Task Force on Friction Factors in Open Channels of the Committee on Hydromechanics of the Hydraulics Division, E. Silberman, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY2, Proc. Paper 3464, Mar., 1963, pp. 97–143.
ASCE, “Nomenclature for Bed Forms in Alluvial Channels,” by the Task Force on Bed Forms in Alluvial Channels, John F. Kennedy, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY3, Proc. Paper 4823, May, 1966, pp. 51–64.
ASCE, closure to “Sediment Transportation Mechanics: Initiation of Motion,” by the Task Committee on Preparation of Sedimentation Manual, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY5, Proc. Paper 5408, Sept., 1967a, pp. 297–302.
ASCE, “Erosion of Cohesive Sediments,” by the Task Committee on Erosion of Cohesive Materials, F. D. Masch, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 94, No. HY4, Proc. Paper 6044, July, 1967b, pp. 1017–1049.
Babcock, H. A., “The State of the Art of Transporting Solids in Pipelines,” 48th National Meeting of the American Institute of Chemical Engineers, Denver, Colo., Aug., 1962.
Babcock, H. A., “The Sliding Bed Flow Regime,” Proceedings, 1st International Conference on Hydraulic Transportation of Solids in Pipes, Paper H1, (Hydrotransport 1), British Hydromechanics Research Association, 1970, pp. 1–16.
Babcock, H. A., “Heterogeneous Flow of Heterogeneous Solids,” Advances in Solid-Liquid Flow in Pipes and its Application, Zandi I., ed., Pergamon Press, Inc., New York, N.Y., 1971, pp. 125–148.
Babcock, H. A., and Shaw, S., discussion of “Heterogeneous Flow of Solids in Pipelines,” by Iraj Zandi and George Govatos, Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY6, Proc. Paper 5543, Nov., 1967, pp. 442–445.
Bagnold, R. A., “The Measurement of sand Storms,” Proceedings, Royal Society of London, Vol. 167A, London, England, 1938, pp. 282–291.
Bagnold, R. A., The Physics of Blown Sand and Desert Dunes, William Morrow and Co., New York, N.Y., 1943, p. 265.
Bagnold, R. A., “The Movement of a Cohesionless Granular Bed by Fluid Flow Over It,” British Journal of Applied Physics, Vol. 2, 1951, pp. 29–34.
Bagnold, R. A., “Experiments on a Gravity Free Dispersion of Large Solid Spheres in a Newtonian Fluid Under Shear,” Proceedings, Royal Society of London, Series A, Vol. 225, London, England, 1954, pp. 49–70.
Bagnold, R. A., “Some Flume Experiments on Large Grains but Little Denser than the Transporting Fluid, and Their Implications,” Proceedings, Institute of Civil Engineers, Part III, Vol. 4, Apr., 1955, pp. 174–205.
Bagnold, R. A., “Sediment Discharge and Stream Power,” United States Geological Survey Circular 421, Washington, D.C., 1960.
Bain, A. G., and Bonnington, S. T., The Hydraulic Transport of Solids by Pipeline, Pergamon Press, Inc., New York, N.Y., 1970.
Barr, D. I. H., and Herbertson, J. G., discussion of “Sediment Transportation Mechanics: Initiation of Motion,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni. Chmn., Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY6, Proc. Paper 4959, Nov., 1966, pp. 248–251.
Barr, D. I. H., and Herbertson, J. G., “Similitude Theory Applied to Correlation of Flume Sediment Transport Data,” Water Resources Research, Vol. 4, No. 2, Apr., 1968, pp. 307–316.
Barton, J. K., and Lin, Pin-Nam., “A Study of the Sediment Transport in Alluvial Channels,” Report No. 55JRB2, Colorado Agricultural and Mechanical College, Civil Engineering Department, Mar., 1955.
Bata, G., and Knezevich, B., “Some Observations on Density Currents in the Laboratory and in the Field,” Proceedings, Minnesota International Hydraulics Convention, 1953, pp. 387–400.
Beaty, C. B., “Origin of Alluvial Fans, White Mountains, California and Nevada,” Annals, Association of American Geographers, Vol. 53, Washington, D.C., 1963, pp. 516–535.
Bell, H. S., “Stratified Flow in Reservoirs and Its Use in Prevention of Silting,” Miscellaneous Publication No. 491, United States Department of Agriculture, Washington, D.C., 1942.
Bender, D. L., “Suspended Sediment Transport in Alluvial Irrigation Channels,” Report CER No. 56DLB7, Colorado Agricultural and Mechanical College, Civil Engineering Department, June, 1956.
Bennett, H. H., Soil Conservation, 1st ed., McGraw-Hill Book Co., Inc., New York, N.Y., 1939.
Benson, M. A., “Spurious Correlation in Hydraulics and Hydrology,” Journal of the Hydraulics Division, ASCE, Vol. 91, No. HY4, Proc. Paper 4393, July, 1965, pp. 35–42.
Beverage, J. P., and Culbertson, J. K., “Hyperconcentrations of Suspended Sediment,” Journal of the Hydraulics Division, ASCE, Vol. 90, No. HY6, Proc. Paper 4136, Nov., 1964, pp. 117–128.
Blackwelder, E., “Mudflow as a Geologic Agent in Semiarid Mountains,” Bulletin, Geological Society of America, Vol. 39, Boulder, Colo., 1928, pp. 465–483.
Blaisdell, F. W., “Use of Sand Beds for Comparing Relative Stilling Basin Performance,” Transactions, American Geophysical Union, Part II, Washington, D.C., 1942, pp. 633–639.
Blatch, N. S., discussion of “Works for the Purification of the Water Supply of Washington, D.C.,” by A. Hazen and E. D. Hardy, Transactions, ASCE, Paper No. 1036, Dec., 1906, pp. 400–408.
Blench, T., “Mobile-Bed Fluviology,” Department of Technical Services, University of Alberta, Edmonton, Alberta, Canada, 1966a.
Blench, T., discussion of “Sediment Transportation Mechanics: Initiation of Motion,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY2, Proc. Paper 4891, Sept., 1966b, pp. 287–288.
Blench, T., “Coordination in Mobile Bed Hydraulics,” Journal of the Hydraulics Division, ASCE, Vol. 95, No. HY6, Proc. Paper 6884, Nov., 1969, pp. 1871–1898.
Blench, T., “Regime Theory Design of Canals with Sand Beds,” Journal of the Irrigation and Drainage Division, ASCE, Vol. 96, No. IR2, Proc. Paper 7381, June, 1970, pp. 205–213.
Blinco, P. H., and Partheniades, E., “Turbulence Characteristics in Free Surface Flows Over Smooth and Rough Boundaries,” Journal of Hydraulic Research, Vol. 9, No. 1, 1971, pp. 43–69.
Blissenbach, E., “Geology of Alluvial Fans in Semiarid Regions,” Bulletin, Geological Society of America, Vol. 65, Boulder, Colo., 1954, pp. 175–190.
Bohlen, W. F., “Hotwire Anemometer Study of Turbulence in Open-Channel Flows Transporting Neutrally Buoyant Particles,” Report No. 69–1, Experimental Sedimentology Laboratory, Department of Earth and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, Mass., 1969.
Bonnefille, R., and Goddet, J., “Study of Density Currents in a Canal,” Proceedings, Eighth Congress International Association for Hydraulic Research, Vol. 2, Montreal, Canada, Aug., 1959.
Breusers, H. N. C., discussion of “Sediment Transportation Mechanics: Erosion of Sediment,” Proggress Report by the Task Committee on Preparation of Sedimentation Manual of the Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY1, Proc. Paper 3405, Jan., 1963, pp. 277–281.
British Hydromechanics Research Association, Hydrotransport 1, Proceedings, 1st International Conference on Hydraulic Transportation of Solids in Pipes, 1970a.
British Hydromechanics Research Association, The Hydraulic Transport of Solids in Pipes—A Bibliography, 1970b.
Brooks, N. H., “Laboratory Studies of the Mechanics of Streams Flowing Over a Movable Bed of Fine Sand,” thesis presented to California Institute of Technology, at Pasadena, Calif., in 1954, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Brooks, N. H., “Mechanics of Streams with Movable Beds of Fine Sand,” Transactions, ASCE, Vol. 123, Paper No. 2931, 1958, pp. 526–594.
Brooks, N., “Flow Measurements of Solid-Liquid Mixtures Using Venturi and Other Meters,” Proceedings of the Institution of Mechanical Engineers, Vol. 176, London, England, No. 6, 1962, pp. 123–139.
Brooks, N. H., discussion of “Boundary Shear Stresses in Curved Trapezoidal Channels,” by A. T. Ippen and P. A. Drinker, Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY3, Proc. Paper 3529, May, 1963a, pp. 327–333.
Brooks, N. H., “Calculation of Suspended Load Discharge from Velocity, and Concentration Parameters,” Proceedings of the Federal Interagency Sedimentation Conference, 1965, Miscellaneous Publication No. 970, Agricultural Research Service, United States Department of Agriculture, Washington, D.C., 1963b, pp. 229–237.
Brown, C. B., “Sediment Transportation,” Chap. XII, Engineering Hydraulics, Rouse H., ed., John Wiley and Sons, Inc., New York, N.Y., 1950.
Buckley, A. B., “The Influence of Silt on the Velocity of Water Flowing in Open Channels,” Proceedings, Institute of Civil Engineers, Vol. 226, Pt. II, London, England 1922–1923, pp. 183–197.
Bull, W. B., “Alluvial Fans and Near-Surface subsidence in Western Fresno County, California,” Professional Paper 437-A, United States Geological Survey, Washington, D.C., 1964.
Burke, P. P., “Effect of Water Temperature on Discharge and Bed Configuration, Mississippi River at Red River Landing, Louisiana,” United States Army Engineer District, New Orleans, La., 1965.
Callander, R. A., “Instability and River Channels,” Journal of Fluid Mechanics, Vol. 36, Part 3, 1969, pp. 465–480.
Camp, T. R., “Sedimentation and the Design of Settling Tanks,” Transactions, ASCE, Vol. 111, Paper No. 2285, 1946, pp. 895–958.
Carey, W. C., “Effect of Temperature on Riverbed Configuration: Its Possible Stage-Discharge Implications,” Proceedings of the Federal Interagency Sedimentation Conference, Miscellaneous Publication No. 970, Agricultural Research Service, United States Department of Agriculture, Washington, D.C., 1963, pp. 237–272.
Carey, W. C., “Formation of Flood Plain Lands,” Journal of the Hydraulics Division, ASCE, Vol. 95, No. HY3, Proc. Paper 6574, May, 1969, pp. 981–994.
Carey, W. C., and Keller, M. D., “Systematic Changes in the Beds of Alluvial Rivers,” Journal of the Hydraulics Division, ASCE, Vol. 83, No. HY4, Proc. Paper 1331, Aug., 1957.
Carstens, M. R., “A Theory for Heterogeneous Flow of Solids in Pipes,” Journal of the Hydraulics Division, ASCE, Vol. 95, No. HY1, Proc. Paper 6354, Jan., 1969, pp. 275–286.
Chamberlain, A. R., “Fine Sand Transport in Twelve-Inch Pipes,” thesis presented to Colorado State University, at Fort Collins, Colo., in 1955, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Chepil, W. S., “Relation of Wind Erosion to the Dry Aggregate Structure of a Soil,” Scientific Agriculture, Vol. 21, Agricultural Institute of Canada, Ottawa, Canada, 1941, pp. 488–507.
Chepil, W. S., “Dynamics of Wind Erosion: I; The Nature of Movement of Soil by Wind,” Soil Science, Vol. 60, 1945a, pp. 305–320.
Chepil, W. S., “Dynamics of Wind Erosion: II; Initiation of Soil Movement,” Soil Science, Vol. 60, 1945b, pp. 397–411.
Chepil, W. S., “Dynamics of Wind Erosion: III; Transport Capacity of the Wind,” Soil Science, Vol. 60, 1945c, pp. 475–480.
Chepil, W. S., “Dynamics of Wind Erosion: IV; The Translocating and Abrasive Action of the Wind,” Soil Science, Vol. 61, 1946, pp. 167–177.
Chepil, W. S., “Properties of Soil which Influence Wind Erosion: II; Dry Aggregate Structure as an Index of Erodibility,” Soil Science, Vol. 69, 1950, pp. 403–414.
Chepil, W. S., “Factors that Influence Cold Structure and Erodibility of Soil by Wind: IV; Sand, Silt, and Clay, Soil Science, Vol. 80, 1955, pp. 155–160.
Chepil, W. S., “Influence of Moisture on Erodibility of Soil by Wind,” Proceedings, Soil Science Society of America, Vol. 20, Madison, Wisc., 1956, pp. 288–292.
Chepil, W. S., “Sedimentary Characteristics of Dust Storms: I; Sorting of Wind Eroded Soil Material,” American Journal of Science, Vol. 255, 1957a, pp. 12–22.
Chepil, W. S., “Width of Field Strips to Control Wind Erosion,” Technical Bulletin 92, Kansas Agricultural Experiment Station, Manhattan, Kans., 1957b.
Chepil, W. S., “Soil Conditions that Influence Wind Erosion,” Technical Bulletin No. 1185, United States Department of Agriculture, Washington, D.C., 1958.
Chepil, W. S., “Equilibrium of Soil Grains at the Threshold of Movement by Wind,” Proceedings, Soil Science Society of America, Vol. 23, Madison, Wisc., 1959a, pp. 422–428.
Chepil, W. S., “Wind Erodibility of Farm Fields,” Journal of Soil and Water Conservation, Vol. 14, No. 5, 1959b, pp. 214–219.
Chepil, W. S., “Conversion of Relative Field Erodibility to Annual Soil Loss by Wind,” Proceedings, Soil Science Society of America, Vol. 24, Madison, Wisc., 1960, pp. 143–145.
Chepil, W. S. “The Use of Spheres to Measure Lift and Drag on Wind-eroded Soil Grains,” Proceedings, Soil Science Society of America, Vol. 25, Madison, Wisc., 1961, pp. 243–245.
Chepil, W. S., and Milne, R. A., “Wind Erosion in Relation to Roughness of Surface,” Soil Science, Vol. 52, 1941, pp. 417–433.
Chepil, W. S., and Siddoway, F. H., “Strain-gage Anemometer for Analyzing Various Characteristics of Wind Turbulence,” Journal of Meteorology, Vol. 16, 1959, pp. 411–118.
Chepil, W. S., Siddoway, F. H., and Armbrust, D. V., “Climatic Factor for Estimating Wind Erodibility of Farm Fields,” Journal of Soil and Water Conservation, Vol. 17, 1962, pp. 162–165.
Chepil, W. S., and Woodruff, N. P., “Sedimentary Characteristics of Dust Storms: II; Visibility and Dust Concentration,” American Journal of Science, Vol. 255, 1957, pp. 104–114.
Chepil, W. S., and Woodruff, N. P., “Estimations of Wind Erodibility of Farm Fields,” Production Research Report No. 25, Agricultural Research Service, United States Department of Agriculture, Washington, D. C., 1959.
Chepil, W. S. and Woodruff, N. P., “The Physics of Wind Erosion and its Control,” Advances in Agronomy, American Society of Agronomy, Vol. 15, Madison, Wisc., 1963, pp. 211–302.
Chepil, W. S., Woodruff, N. P., and Zingg, A. W., “Field Study of Wind Erosion in Western Texas,” SCS-TP-125, United States Department of Agriculture, Washington, D.C., 1955.
Chien, N., “The Present Status of Research on Sediment Transport,” Transactions, ASCE, Vol. 121, Paper No. 2824, 1956, pp. 833–868.
Chien, N., “A Concept of the Regime Theory,” Transactions, ASCE, Vol. 122, Paper No. 2884, 1957, pp. 785–793.
Chiu, C. L., and Seman, J. J., “Head Loss in Spiral-Liquid Flow in Pipes,” Advances in Solid-liquid Flow in Pipes and its Application. Zandi I., ed., Pergamon Press, Inc., New York, N.Y., 1971.
Chow, V. T., Open-Channel Hydraulics, McGraw-Hill Book Co., Inc., New York, N.Y., 1959.
Colby, B. R., “Relationship of Unmeasured Sediment Discharge to Mean Velocity,” Transactions, American Geophysical Union, Vol. 38, No. 5, Washington, D.C., Oct., 1957, pp. 707–717.
Colby, B. R., “Discontinuous Rating Curves for Pigeon Roost and Cuffawa Creeks in Northern Mississippi,” Report ARS41–36, Agricultural Research Service, Apr., 1960.
Colby, B. R., discussion of “Sediment Transportation Mechanics: Introduction and Properties of Sediment,” Progress Report by the Task Committee on Preparation of Sedimentation Manual of the Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY1, Proc. Paper 3405, Jan., 1963, pp. 266–268.
Colby, B. R. “Practical Computation of Bed-Material Discharge,” Journal of the Hydraulics Division, ASCE, Vol. 90, No. HY2, Proc. Paper 3843, Mar., 1964a, pp. 217–246.
Colby, B. R., “Discharge of Sands and Mean Velocity Relationships in Sand-Bed Streams,” Professional Paper 462–A, United States Geological Survey, Washington, D.C., 1964b.
Colby, B. R., and Hembree, C. H., “Computations of Total Sediment Discharge Niobrara River Near Cody, Nebraska,” Water-Supply Paper 1357, United States Geological Survey, Washington, D.C., 1955.
Colby, B. R., Hembree, C. H., and Rainwater, F. H., “Sedimentation and Chemical Quality of Surface Waters in the Wind River Basin, Wyoming,” Water-Supply Paper 1373, United States Geological Survey, Washington, D.C., 1956.
Colby, B. R., and Hubbell, D. W., “Simplified Methods for Computing Total Sediment Discharge with Modified Einstein Procedure,” Water-Supply Paper No. 1593, United States Geological Survey, Washington, D.C., 1961.
Colby, B. R., and Scott, C. H., “Effects of Water Temperature on the Discharge of Bed Material,” Professional Paper 462–G, United States Geological Survey, Washington, D.C., 1965.
Coleman, N. L., “Observations of Resistance Coefficients in a Natural Channel,” Publication No. 59, International Association of Scientific Hydrology, Commission on Land Erosion, 1962, pp. 336–352.
Colorado School of Mines, “Theory of Solids Transportation in Pipelines,” Golden, Colo., 1963.
Condolios, E., and Chapus, E. E., “Transporting Solid Materials in Pipelines,” Chemical Engineering, June 24, 1963a, pp. 93–98.
Condolios, E., and Chapus, E. E., “Designing Solids-Handling Pipelines-Part II,” Chemical Engineering, July 8, 1963b, pp. 131–138.
Cooper, R. H., and Peterson, A. W., “Analysis of Comprehensive Bed Load Transport Data from Flumes,” presented at the August 21–23, 1968, ASCE Hydraulics Specialty Conference, held at Cambridge, Mass.
Craven, J. P., “The Transportation of Sand in Pipes,” Proceedings of the 5th Hydraulic Conference, Engineering Bulletin No. 34, State University of Iowa, Iowa City, Iowa, 1953, pp. 67–76.
Cunha, Veiga da L., “About the Roughness in Alluvial Channels with Comparatively Coarse Bed Material,” Proceedings, Twelfth Congress of the International Association for Hydraulic Research, Vol. 1, Paper No. A10, Sept., 1967, pp. 76–84.
Daily, J. W., and Bugliarello, G., #x0201C;The Effects of Fibers on Velocity Distribution, Turbulence and Flow Resistance of Dilute Suspension,” Technical Report No. 30, Hydrodynamics Laboratory, Massachusetts Institute of Technology, Cambridge, Mass., 1958.
Daily, J. W., and Chu, T. K., “Rigid Particle Suspensions in Turbulent Shear Flow: Some Concentration Effects,” Report No. 48, Hydrodynamics Laboratory, Massachusetts Institute of Technology, Cambridge, Mass., 1961.
Daily, J. W., and Hardison, R. L., “Rigid Particle Suspensions in Turbulent Shear Flow: Measurement of Total–Head, Velocity and Turbulence with Impact Tubes,” Report No. 67, Hydrodynamics Laboratory, Massachusetts Institute of Technology, Cambridge, Mass., 1964.
Daily, J. W., and Harleman, D. R. F., Fluid Dynamics, Addison –Wesley Publishing Co., Inc., New York, N.Y., 1966.
Danel, P., “Charriage en Suspension,” International Association of Hydraulic Structures Research, Report of Second Meeting, Appendix 7, Stockholm, Sweden, 1948, pp. 113–144.
Dawdy, D. R., “Depth–Discharge Relations of Alluvial Streams-Discontinuous Rating Curves,” Water-Supply Paper 1948–C, United States Geological Survey, Washington, D.C., 1961.
Dobbins, W. E., “Effect of Turbulence on Sedimentation,” Transactions, ASCE, Vol. 109, Paper No. 2218, 1944, pp. 629–678.
Doddiah, D., Albertson, M., and Thomas, R., “Scour from Jets,” Proceedings, Minesota International Hydraulics Convention, Minneapolis, Minn., September 1–4, 1953, pp. 161–169.
DuBoys, P., “Le Rohne et les Rivieres a Lit Affouillable,” Annales des Ponts et Chaussees, Series 5, Vol. 18, 1879, pp. 141–195.
Dunn, I. S., “Tractive Resistance of Cohesive Channels,” Journal of the Soil Mechanics and Foundations Division, ASCE, No. SM3, Proc. Paper 2062, June, 1959, pp. 1–24.
Du Plessis, M. P., and Ansley, R. W., “Settling Parameter in Solids Pipeline,” Journal of the Pipeline Division, ASCE, Vol. 93, No. PL2, Proc. Paper 5340, July, 1967, pp. 1–17.
Durand, R., “Basic Relationship of the Transportation of Solids in Pipes–Experimental Research,” Proceedings, Minnesota International Hydraulics Conference, Minneapolis, Minn., Sept., 1953, pp. 89–103.
Durand, R., and Condolios, E., #x0201C;Experimental Investigation on the Transport of Solids in Pipes,” Le Journéls d’Hydraulique, Société Hydrotechnique de France, Grenoble, France, June, 1952.
Durepaire, M. P., “Contribution a L’Etude du Dragage et du Refoulement des Deblais a L’Efat de Mixture,” Extrast des Annales des Ponts et Chaussees, Fase II, Feurier, 1939, pp. 165–254.
Egiazaroff, I. V., “Coefficient f de la force d’entrainment critique des materiaux par charriage,” Proceedings of Academy of Sciences, Armenian Soviet Socialist Republic, Translation No. 499, Electricité de France Service des Etudes et Récherches Hydrauliques, Paris, France, 1950.
Egiazaroff, I. V., “L’Equation generale du transport des alluvions non cohesives par un courent fluide,” Paper D43, Proceedings of the 7th Congress, International Association for Hydraulic Research, Lisbon, Portugal, 1957, pp. 1–10.
Egiazaroff, I. V., “Calculation of Nonuniform Sediment Concentrations,” Journal of the Hydraulics Division, ASCE, Vol. 91, No. HY4, Proc. Paper 4417, July, 1965, pp. 225–247.
Einstein, H. A., “Formulas for the Transportation of Bed Load,” Transactions, ASCE, Vol. 107, Paper No. 2140, 1942, pp. 561–573.
Einstein, H. A., “Bed Load Transportation in Mountain Creek,” SCS–TP–55 United States Department of Agriculture, Soil Conservation Service, Washington, D.C., 1944.
Einstein, H. A., “The Bed Load Function for Sediment Transportation in Open Channels, Technical Bulletin 1026, United States Department of Agriculture, Soil Conservation Service, Washington, D.C., 1950.
Einstein, H. A., discussion of “Calculation of Nonuniform Sediment Concentrations,” by I. V. Egiazaroff, Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY2, Proc. Paper 4708, 1966, pp. 439–440.
Einstein, H. A., and Barbarossa, N., “River Channel Roughness,” Transactions, ASCE, Vol. 117, Paper No. 2528, 1952, pp. 1121–1146.
Einstein, H. A., and Chien, N., “Second Approximation to the Solution of the Suspended Load Theory,” Series No. 47, Issue No. 2, Institute of Engineering Research, University of California, Berkeley, Calif., January 31, 1952.
Einstein, H. A., and Chien, N., “Can the Rate of Wash Load be Predicted from the Bed Load Function,” Transactions, American Geophysical Union, Vol. 34, No. 6, Washington, D.C., Dec., 1953a, pp. 876–882.
Einstein, H. A., and Chien, N., “Transport of Sediment Mixtures with Large Range of Grain Size,” MRD Sediment Series No. 2, United States Army Engineer Division, Missouri River, Corps of Engineers, Omaha, Neb., 1953b.
Einstein, H. A., and Chien, N., “Second Approximation to the Solution of the Suspended Load Theory,” MRD Series Report No. 2, University of California and Missouri River Division, United States Corps of Engineers, June, 1954.
Einstein, H. A., and Chien, N. “Effects of Heavy Sediment Concentration near the Bed on Velocity and Sediment Distribution,” MRD Series No. 8, University of California, Institute of Engineering Research and United States Army Engineering Division, Missouri River, Corps of Engineers, Omaha, Nebr., Aug., 1955.
Einstein, H. A., and El-Samni, E. S. A., “Hydrodynamic Forces on a Rough Wall,” Review of Modern Physics, Vol. 21, 1949, pp. 520–524.
Einstein, H. A., and Li, H., “The Viscous Sublayer Along a Smooth Boundary,” Transactions, ASCE, Vol. 123, Paper No. 2992, 1958, pp. 293–313.
Einstein, H. A., Anderson, A. G., and Johnson, J. W., “A Distinction between Bed Load and Suspended Load in Natural Streams,” Transactions, American Geophysical Union, Annual Meeting 21 (Part 2), Washington, D.C., 1940, pp. 628–633.
Elata, C., and Ippen, A. T., “The Dynamics of Open Channel Flow with Suspensions of Neutrally Buoyant Particles,” Technical Report No. 45, Massachusetts Institute of Technology, Hydrodynamics Laboratory, Cambridge, Mass., Jan., 1961.
Ellison, T. H., “Turbulent Transport of Heat and Momentum from an Infinite Rough Plane,” Journal of Fluid Mechanics, Vol. 2, Part 5, 1957, pp. 456–466.
Engelund, F., “Hydraulic Resistance of Alluvial Streams,” Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY2, Proc. Paper 4739, Mar., 1966, pp. 315–327.
Engelund, F., closure to “Hydraulic Resistance of Alluvial Streams,” Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY4, Proc. Paper 5304, July, 1967, pp. 287–296.
Engelund, F., and Hansen, E., “A Monograph on Sediment Transport in Alluvial Streams, Teknisk Vorlag, Copenhagen, Denmark, 1967.
Exner, F., “Uber die Wechselwirkung swischen Wasser und Geschiebe in Flussen, Proceedings, Vienna Academy of Sciences, Section IIA, Vol. 134, 1925, p. 199.
Fenneman, N. M., “Floodplains Produced without Floods,” Bulletin, American Geographical Society, Vol. 38, New York, N.Y., 1906, pp. 89–91.
Field, W. G., “Effects of Density Ratio on Sedimentary Similitude,” Journal of the Hydraulics Division, ASCE, Vol. 94, No. HY3, Proc. Paper 5948, May, 1968, pp. 705–719.
Fietz, T. R., and Wood, I. R., “Three-Dimensional Density Current,” Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY6, Proc. Paper 5549, Nov., 1967, pp. 1–23.
Fisk, H. N., “Geological Investigation of the Alluvial Valley of the Lower Mississippi River,” United States Army Corps of Engineers, Mississippi River Commission, Vicksburg, Miss., 1944.
Fisk, H. N., “Fine-grained Alluvial Deposits and Their Effects on Mississippi River Activity,” United States Army Corps of Engineers, Waterways Experiment Station, Vicksburg, Miss., 1947.
Fisk, H. N., “Mississippi River Valley Geology Relation to Regime,” Transactions, ASCE, Vol. 117, Paper No. 2511, 1952, pp. 667–689.
Flaxman, E. M., “Channel Stability in Undisturbed Cohesive Soils,” Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY2, Proc. Paper 3462, Mar., 1963, pp. 87–96.
Flaxman, E. M., discussion of “Sediment Transportation Mechanics: Initiation of Motion,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY6, Proc. Paper 4959, No. v, 1966, pp. 245–248.
Fleming, G., and Poodle, T., “Particle Size of River Sediments,” Journal of the Hydraulics Division, ASCE, Vol. 96, No. HY2, Proc. Paper 7068, Feb., 1969, pp. 431–439.
Fontein, F. J., “Research and Development Work on Vertical Hydraulic Transport,” Colliery Guardian, Vol. 197, Holland, September 11, 1958.
Fortier, S., and Scobey, F. C., “Permissible Canal Velocities,” Transactions, ASCE, Vol. 89, Paper No. 1588, 1926, pp. 940–984.
Fortino, E. P., “Flow Measurement Techniques for Hydraulic Dredges,” Journal of the Waterways and Harbors Division, ASCE, Vol. 92, No. WW1, Proc. Paper 4683, Feb., 1966, pp. 109–125.
Fowler, L., “Notes on the Turbulence Function k,” Missouri River Division, United States Army, Corps of Engineers, Nov., 1953.
Franco, J. J., “Effects of Water Temperature on Bed-Load Movement,” Journal of the Waterways and Harbors Division, ASCE, Vol. 94, No. WW3, Proc. Paper 6083, Aug., 1968, pp. 343–352.
Free, E. E., “The Movement of Soil Material by the Wind,” Bulletin No. 68, Bureau of Soils, United States Department of Agriculture, Washington, D.C., 1911.
Fry, A. S., Churchill, M. A., and Elder, R. A., “Significant Effects of Density Currents in TVA’s Integrated Reservoir and River System,” Proceedings, Minnesota International Hydraulic Convention, 1953, pp. 335–354.
Fryxell, F. M., and Horberg, L., “Alpine Mudflows in Grand Teton National Park, Wyoming,” Bulletin, Geological Society of America, Vol. 54, Boulder, Colo., 1943, pp. 457–472.
Faddick, R. R., and Babcock, H. A., discussion of “Sediment Transportation Mechanics: J. Transportation of Sediment in Pipes,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 97, HY5, Proc. Paper 8081, May, 1971, pp. 745–748.
Garde, R. J., “Sediment Transport Through Pipes,” thesis presented to Colorado A & M University, at Fort Collins, Colo., in 1956, in partial fulfillment of the requirements for the degree of Master of Science.
Garde, R. J., and Raju, K. G. R., “Resistance Relationships for Alluvial Channel Flow,” Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY4, Proc. Paper 4869, July, 1966, pp. 77–100.
Geiger, R., The Climate Near the Ground, Harvard University Press, Cambridge, Mass., 1957, P. 494.
Gessler, J., “The Beginning of Bed Load Movement of Mixtures Investigated as Natural Armoring in Channels,” Report No. 69, Laboratory of Hydraulic Research and Soil Mechanics, Swiss Federal Institute of Technology, Zurich, Switzerland (in German), 1965.
Gessler, J., “Self-Stabilizing Tendencies of Alluvial Channels,” Journal of the Waterways and Harbors Division, ASCE, Vol. 96, No. WW2, Proc. Paper 7263, May, 1970, pp. 235–249.
Gibert, R., “Transport Hydraulique et Refoulement des Mixtures en Conduit,” Anals des Pontes et Chaussees, Vol. 130, No. 12, 1960.
Gilbert, G. K., “Transportation of Debris by Running Water,” Professional Paper No. 86, United States Geological Survey, 1914.
Gill, M. A., “Rationalization of Lacey’s Regime Flow Equation,” Journal of the Hydraulics Division, ASCE, Vol. 94, No. HY4, Proc. Paper 6039, July, 1968, pp. 983–995.
Goldstein, S., Modern Developments in Fluid Dynamics, Vols. I and II, Oxford University Press, Oxford, England, 1950, pp. 256–265, 561–600.
Gradowczyk, M. H., “Wave Propagation on the Erodible Bed of an Open Channel,” Journal of Fluid Mechanics, Vol. 33, 1968, pp. 93–112.
Graf, W. H., “A Modified Venturi Meter for Measuring Two-Phase Flow,” Journal of Hydraulic Research, International Association for Hydraulic Research, Vol. 5, No. 3, 1967.
Graf, W. H., Hydraulics of Sediment Transport, McGraw-Hill Book Co., Inc., New York, N.Y., 1971.
Graf, W. H., and Acaroglu, E. R., “Homogeneous Suspensions in Circular Conduits,” Journal of the Pipeline Division, ASCE, Vol. 93, No. PL2, Proc. Paper 5352, July, 1967, pp. 63–69.
Graf, W. H., and Acaroglu, E. R., “Sediment Transport in Conveyance Systems,” Bulletin of the International Association of Scientific Hydrology, Vol. XIII, No. 2, 1968.
Gregory, W. B., Mechanical Engineering, Vol. 49, 1927, p. 609; see also
Zabrodsky S. S., Hydrodynamics and Heat Transfer in Fluidized Beds, MIT Press, Cambridge, Mass., 1966.
Griffith, W. M., “A Theory of Silt Transportation,” Transactions, ASCE, Vol. 104, Paper No. 2052, 1939, pp. 1733–1748.
Grissinger, E. H., and Asmussen, L. E., discussion of “Channel Stability in Undisturbed Cohesive Soils,” by E. M. Flaxman, Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY6, Proc. Paper 3708, Nov., 1963, pp. 259–264.
Grover, N. C., and Howard, C. S., “The Passage of Turbid Water through Lake Mead,” Transactions, ASCE, Vol. 103, Paper No. 1994, 1938, pp. 720–790.
Guy, H. P., Rathbun, R. E., and Richardson, E. V., “Recirculation and Sand-Feed Type Flume Experiments, Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY5, Proc. Paper 5428, Sept., 1967, pp. 97–114.
Guy, H. P., Simons, D. B., and Richardson, E. V., “Summary of Alluvial Channel Data from Flume Experiments, 1956–61,” Professional Paper 462–I, United States Geological Survey, 1966.
Hack, J. T., and Goodlett, J. C., “Geomorphology and Forest Ecology of a Mountain Region in the Central Appalachians,” Professional Paper 347, United States Geological Survey, 1960.
Halbronn, G., “Remarque sur la théorie de 1’Austausch appliqueé au transport des materiaux en suspension,” Proceedings, International Association of Hydraulic Research, 3rd Meeting, 11–9, Grenoble, France, 1949, pp. 1–6.
Hanna, R. M., and Bidwell, O. W., “The Relation of Some Loessal Soils of Northeastern Kansas to the Texture of the Underlying Loess,” Proceedings, Soil Science Society of America, Vol. 19, Madison, Wisc., 1955, pp. 354–359.
Hansen, E., “The Formation of Meanders as a Stability Problem,” Basic Research Report No. 13, Technical University of Denmark, Hydraulic Laboratory, Jan., 1967, pp. 9–13.
Happ, S. C., “Significance of Texture and Density of Alluvial Deposits in the Middle Rio Grande Valley,” Journal of Sedimentary Petrology, Vol. 14, Apr., 1944, pp. 3–19.
Happ, S. C., Stream-Channel Control, Applied Sedimentation, Trask Parker D., ed., John Wiley and Sons, Inc., New York, N.Y., and Chapman & Hall, London, England, 1950, pp. 319–335.
Happ, S. C., Rittenhouse, G., and Dobson, G. C., “Some Principles of Accelerated Stream and Valley Sedimentation,” Technical Bulletin 695, United States Department of Agriculture, Washington, D.C., 1940.
Harleman, D. R. F., “Stratified Flow,” Handbook of Fluid Dynamics, Streeter V., ed., McGraw-Hill Book Co., Inc., New York, N.Y., 1961.
Harleman, D. R. F., and Ippen, A. T., “Salinity Intrusion Effects in Estuary Shoaling,” Journal of the Hydraulics Division, ASCE, Vol. 95, No. HY1, Proc. Paper 6340Jan., 1969, pp. 9–27.
Harrison, A. S., “Report on Special Investigations of Bed Sediment Segregation in a Degrading Bed,” Report Series No. 33, University of California, Institute of Engineering Research, Issue No. 1, Berkeley, Calif., Sept., 1950.
Hayashi, T., “Formation of Dunes and Antidunes in Open Channels,” Journal of the Hydraulics Division, ASCE, Vol. 96, No. HY2, Proc. Paper 7056Feb., 1970, pp. 357–366.
Haynie, R. B., and Simons, D. B., “Design of Stable Channels in Alluvial Materials,” Journal of the Hydraulics Division, ASCE, Vol. 94, No. HY6, Proc. Paper 6217Nov., 1968, pp. 1399–1420.
Hembree, C. H., Colby, B. R., Swenson, H. A., and Davis, J. H., “Sedimentation and Chemical Quality of Water in the Powder River Drainage Basin, Wyoming and Montana,” Circular 170, United States Geological Survey, Washington, D.C., 1952.
Henderson, F. M., “Stability of Alluvial Channels,” Journal of the Hydraulics Division, ASCE, Vol. 87, No. HY6, Proc. Paper 2984Nov., 1961, pp. 109–138.
Henderson, F. M., Open Channel Flow, The Macmillan Co., New York, N.Y., 1966.
Highway Research Board, “Scour at Bridge Waterways,” Report No. 5, National Cooperative Highway Research Program, Synthesis of Highway Practice, 1970.
Hino, M. “Turbulent Flow With Suspended Particles,” Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY4, Proc. Paper 3579July, 1963, pp. 161–185.
Hjulström, F., “Studies of the Morphological Activity of Rivers as Illustrated by the River Fyris,” Bulletin, Geological Institute of Upsala, Vol. XXV, Upsala, Sweden, 1935.
Homayounfar, F., “Flow of Multicomponent Slurries,” thesis presented to the University of Delaware, at Newark, Del., in 1965, in partial fulfillment of the requirements for the degree of Master of Science.
Hooke, R. L., “Processes on Arid-Region Alluvial Fans,” Journal of Geology, Vol. 75, 1967, pp. 438–460.
Houghton, G., “Particle Retardation in Vertically Oscillating Fluids,” The Canadian Journal of Chemical Engineering, Vol. 46, No. 2, 1968, pp. 79–81.
Howard, G. W., “Transportation of Sand and Gravel in a Four-Inch Pipe,” Transactions, ASCE, Vol. 104, Paper No. 2039, 1939, pp. 1334–1348.
Howard, G. W., “Effects of Rifling on Four-Inch Pipe Transporting Solids,” Transactions, ASCE, Vol. 106, Paper No. 2101, 1941, pp. 135–137.
Howard, C. D. D., discussion of “Sediment Transportation Mechanics: Introduction and Properties of Sediment,” Progress Report of the Task Committee on Preparation of Sedimentation Manual of the Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 88, No. HY6, Proc. Paper 3338Nov., 1962, pp. 235–237.
Howard, C. D. D., “The Effect of Fines on the Pipeline Flow of Sand Water Mixtures,” thesis presented to the University of Alberta, at Edmonton, Alberta, in 1962b, in partial fulfillment of the requirements for the degree of Master of Science.
Howard, C. S., “Density Currents in Lake Mead,” Proceedings, Minnesota International Hydraulics Convention, 1953, pp. 355–368.
Hubbell, D. W., and Al-Shaikh, A. K. S., “Qualitative Effects of Temperature on Flow Phenomena in Alluvial Channels,” Professional Paper 424–D, United States Geological Survey, Washington, D.C., 1961, pp. D-21–D-23.
Hubbell, D. W., and Matejka, D. Q., “Investigations of Sediment Transportation, Middle Loup River at Dunning, Nebraska,” Water-Supply Paper No. 1476, United States Geological Survey, Washington, D.C., 1959.
Hughmark, G. A., “Aqueous Transport of Settling Slurries,” Industrial and Engineering Chemistry, Vol. 55, No. 5, May, 1961, pp. 389–390.
Hunt, J. N., “The Turbulent Transport of Suspended Sediment in Open Channels,” Proceedings, Royal Society of London, Series A, Vol. 224, No. 1158, 1954, pp. 322–335.
Hunt, W. A., and Hoffman, I. C., “Optimization of Pipelines Transporting Solids,” Journal of the Pipeline Division, ASCE, Vol. 94, No. PL1, Proc. Paper 6179Oct., 1968, pp. 89–106.
Hurst, H. E., “The Suspension of Sand in Water,” Proceedings, Royal Society of London, Series A, Vol. 24, 1929, pp. 196–201.
Hwang, Li-San., “Flow Resistance of Dunes in Alluvial Streams,” thesis presented to California Institute of Technology, at Pasadena, Calif., in 1965, in partial fulfillment of the requirements for the degree of Doctor of Philosophy (also available from University Microfilms, Inc., Ann Arbor, Mich.).
Inglis, C. C., “Meanders and Their Bearing on River Training,” The Institution of Civil Engineers, Maritime & Waterways Engineers Division, London, England, 1947, pp. 3–54.
Inglis, C. C., discussion of “Systematic Evaluation of River Regime,” by Charles R. Neill and Victor J. Galey, Journal of the Waterways and Harbors Division, ASCE, Vol. 94, No. WW1, Proc. Paper 5774Feb., 1968, pp. 109–114.
Inman, D. L., “Measures for Describing the Size Distribution of Sediments,” Journal of Sedimentary Petrology, Vol. 22, No. 3, 1952, pp. 125–145.
Interagency Committee, “Some Fundamentals of Particle Size Analysis, A Study of Methods Used in Measurement and Analysis of Sediment Loads in Streams,” Report No. 12, Subcommittee on Sedimentation, Interagency Committee on Water Resources, St. Anthony Falls Hydraulic Laboratory, Minneapolis, Minn., 1957.
Ippen, A. T., “A New Look at Sedimentation in Turbulent Streams,” Journal of the Boston Society of Civil Engineers, Vol. 58, No. 3, July, 1971, pp. 131–163.
Ippen, A. T., and Harleman, D. R. F., “Steady-State Characteristics of Subsurface Flow,” Circular No. 521, Gravity Waves Symposium, National Bureau of Standards, Washington, D.C., 1952, p. 79.
Ippen, A. T., and Verma, R. P., “The Motion of Discrete Particles along the Bed of a Turbulent Stream,” Proceedings, Minnesota International Hydraulics Conference, Minneapolis, Minn., 1953, pp. 7–20.
Ismail, H. A., “Turbulent Transfer Mechanism and Suspended Sediment in Closed Conduits,” Transactions, ASCE, Vol. 117, Paper No. 2500, 1952, pp. 409–454.
Iwanami, S., and Suu, T., “Pressure Losses in Right-Angled Pipe Fittings,” Proceedings, 1st International Conference on Hydraulic Transportation of Solids in Pipes, (Hydrotransport 1), British Hydromechanics Research Association, 1970.
Jahns, R. H., “Geologic Features of the Connecticut Valley, Massachusetts, as Related to Recent Floods,” Water-Supply Paper 996, United States Geological Survey, Washington, D.C., 1947.
Jeffries, H., “Transport of Sediments by Streams,” Proceedings, Cambridge Philosophical Society, Vol. 25, Cambridge, England, 1929, p. 72.
Jobson, H. E., “Vertical Mass Transfer in Open Channel Flow,” thesis presented to Colorado State University, at Fort Collins, Colo., in 1968, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Johnson, C. O., “Similarity in Scour Below a Spillway,” thesis presented to the University of Minnesota, at Minneapolis, Minn., in 1950, in partial fulfillment of the requirements for the degree of Master of Science.
Johnson, J. W., “The Importance of Considering Side-Wall Friction in Bed-Load Investigations,” Civil Engineering, ASCE, Vol. 12, No. 6, June, 1942, pp. 329–331.
Johnson, J. W., “Laboratory Investigations on Bed-Load Transportation and Bed Roughness, A Compilation,” Mimeograph Publication SCS-TP-50, United States Department of Agriculture, Soil Conservation Service, Washington, D.C., Mar., 1943.
Johnson, L. C., “The Nita Crevasse,” Bulletin, Geological Society of America, Vol. 2, Boulder, Colo., pp. 20–25.
Jordan, P. R., “Fluvial Sediment of the Mississippi River at St. Louis, Missouri,” Water-Supply Paper 1802, United States Geological Survey, Washington, D.C., 1965.
Kada, H., “Effect of Solid Particles on Turbulence,” thesis presented to the University of Illinois, at Urbana, Ill., in 1959, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Kalinske, A. A., “Criteria for Determining Sand Transportation by Surface Creep and Saltation,” Transactions, American Geophysical Union, Part II, Washington, D.C., 1942, pp. 639–643.
Kalinske, A. A., “The Role of Turbulence in River Hydraulics,” Bulletin 27, Proceedings of the 2nd Hydraulics Conference, University of Iowa Studies in Engineering, Iowa City, Iowa, 1943a, pp. 266–279.
Kalinske, A. A., “Turbulence and the Transport of Sand and Silt by Wind,” Annals of the New York Academy of Science, Vol. XLIV, Article 1, 1943b, pp. 41–54.
Kalinske, A. A., “Movement of Sediment as Bed Load in Rivers,” Transactions, American Geophysical Union, Vol. 28, No. 4, Washington, D.C., Aug., 1947, pp. 615–620.
Kalinske, A. A., and Pien, C. L., “Experiments on Eddy-Diffusion and Suspended-Material Transportation in Open Channels,” Transactions, American Geophysical Union, Part II, Washington, D.C., 1943, pp. 530–536.
Kawashima, T., and Noda, K., “Hydraulic Transport of Solids in an Inclined Pipe: Theoretical and Experimental Studies in Pressure Loss,” Proceedings, 1st International Conference on Hydraulic Transportation of Solids in Pipes, (Hydrotransport 1), British Hydromechanics Research Association, 1970.
Kennedy, R. G., “The Prevention of Silting in Irrigation Canals,” Proceedings, Institute of Civil Engineers, Vol. 119, 1895, pp. 281–290.
Kennedy, J. F., “Stationary Waves and Antidunes in Alluvial Channels,” thesis presented to California Institute of Technology, at Pasadena, Calif., in 1960, in partial fulfillment of the requirements for the degree of Doctor of Philosophy (also available from University Microfilms, Inc., Ann Arbor, Mich.).
Kennedy, J. F., “Stationary Waves and Antidunes in Alluvial Channels,” Report KH-R-2, W. M. Keck Laboratory of Hydraulics and Water Resources, California Institute of Technology, Pasadena, Calif., 1961.
Kennedy, J. F., “The Mechanics of Dunes and Antidunes in Erodible-Bed Channels,” Journal of Fluid Mechanics, Vol. 16, Part 4, 1963, pp. 521–544.
Kennedy, J. F., “The Formation of Sediment Ripples, Dunes, and Antidunes,” Annual Review of Fluid Mechanics, Sears W. R., ed., Vol. 1, Annual Reviews, Inc., Palo Alto, Calif., 1969, pp. 147–168.
Kennedy, J. F., and Koh, R. C. Y., “The Relation Between the Frequency Distribution of Sieve Diameters and Fall Velocities of Sediment Particles,” Journal of Geophysical Research, Vol. 66, 1961, pp. 4233–4246.
Kennedy, J. F., and Koh, R. C. Y., discussion of “Sediment Transportation Mechanics:—Introduction and Properties of Sediment,” by the Task Committee on Preparation of Sedimentation Manual of the Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY2, Proc. Paper 3468Mar., 1963, pp. 171–174.
Kennedy, J. F., and Brooks, N. H., “Laboratory Study of an Alluvial Stream at Constant Discharge,” Proceedings of the Federal Interagency Sedimentation Conference, 1963, Miscellaneous Publication No. 970, Agriculture Research Service, United States Department of Agriculture, Washington, D.C., 1965, pp. 320–330.
Kepner, R. A., Boelter, L. M. K., and Brooks, F. A., “Nocturnal Wind Velocity, Eddy-stability, and Eddy-diffusivity above a Citrus Orchard,” Transactions, American Geophysical Union, Vol. 23, Part II, Washington, D.C., 1942, p. 240.
Keulegan, G. H., “Laminar Flow at the Interface of Two Liquids,” Journal of Research, National Bureau of Standards, Vol. 32, No. 303, RP 1591, 1944.
Keulegan, G. H., “Interfacial Instability and Mixing in Stratified Flows,” Journal of Research, National Bureau of Standards, Vol. 43, No. 487, RP 2040, 1949.
Knapp, R. T., “Density Currents: Their Mixing Characteristics and Their Effect on the Turbulence Structure of the Associated Flow,” Proceedings, Second Hydraulics Conference, State University of Iowa, Iowa City, Iowa, 1942, pp. 289–306.
Koelzer, V. A., and Lara, J. M., “Densities and Compaction Rates of Deposited Sediment,” Journal of the Hydraulics Division, ASCE, Vol. 84, No. HY2, Proc. Paper No. 1603, Apr., 1958, p. 1603.
Kolb, C. R., and Van Lopik, J. R., “Geology of the Mississippi River Deltaic Plain, Southeastern Louisiana,” Technical Report No. 3–483, United States Army Corps of Engineers, Waterways Experiment Station, Vicksburg, Miss., 1958.
Kolb, C. R., Mabrey, P. R., and Steinriede, W. B., Jr., “Geological Investigation of the Yazoo Basin,” Technical Report No. 3–480, United States Army Corps of Engineers, Waterways Experiment Station, Vicksburg, Miss., 1958.
Koloseus, H. J., and Davidian, J., “Flow in an Artificially Roughened Channel,” Professional Paper 424–B, United States Geological Survey, Washington, D.C., 1961.
Komura, S., discussion of “Sediment Transportation Mechanics:—Introduction and Properties of Sediment,” Progress Report by the Task Committee on Preparation of Sedimentation Manual of the Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY1, Proc. Paper 3405Jan., 1963a, pp. 263–266.
Komura, S., discussion of “Sediment Transportation Mechanics: Erosion of Sediment,” Progress Report by the Task Committee on Preparation of Sedimentation Manual of the Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 89, HY1, Proc. Paper 3405Jan., 1963b, pp. 269–276.
Kramer, H., “Sand Mixtures and Sand Movement in Fluvial Models,” Transactions, ASCE, Vol. 100, Paper No. 1909, 1935, pp. 798–878.
Krey, H., “Die Quergeschwindigkeitskurve bei Turbulenter Stroemung,” Zeitschrift fur Angewandte Mathematik und Mechanik, Vol. 7, No. 2, 1927, pp. 107–113.
Krumbein, W. C., and Pettijohn, F. J., Manual of Sedimentary Petrography, D. Appleton-Century Co., New York, N.Y., 1938.
Lacey, G., “Stable Channels in Alluvium,” Proceedings of the Institution of Civil Engineers, Vol. 229, Part I, London, England, 1929, pp. 259–292.
Lane, E. W., “Notes on Limit of Sediment Concentration,” Journal of Sedimentary Petrology, Vol. 10, No. 2, Aug., 1940, pp. 95–96.
Lane, E. W., “Report of the Subcommittee on Sediment Terminology,” Transactions, American Geophysical Union, Vol. 28, No. 6, Washington, D.C., Dec., 1947, pp. 936–938.
Lane, E. W., “Design of Stable Channels,” Transactions, ASCE, Vol. 120, Paper No. 2776, 1955, pp. 1234–1279.
Lane, E. W., “A Study of the Shape of Channels Formed by Natural Streams Flowing in Erodible Material,” MRD Sediment Series Report No. 9, United States Army Engineer Division, Corps of Engineers, Omaha, Neb., 1957.
Lane, E. W., and Eden, E. W., “Sand Waves in the Lower Mississippi River,” Proceedings of Western Society of Professional Engineers, Vol. 45, No. 6, Dec., 1940, pp. 281–291.
Lane, E. W., and Kalinske, A. A., “The Relation of Suspended to Bed Material in Rivers,” Transactions, American Geophysical Union, Part IV, Washington, D.C., 1939, pp. 637–641.
Lane, E. W., and Koelzer, V. A., “Density of Sediments Deposited in Reservoirs,” Report No. 9 of A Study of Methods Used in Measurement and Analysis of Sediment Loads in Streams, St. Paul United States Engineering District, St. Paul, Minn., 1953.
Lane, E. W., Carlson, E. J., and Hanson, O. S., “Low Temperature Increases Sediment Transportation in Colorado River,” Civil Engineering, ASCE, Vol. 19, No. 9, Sept., 1949, pp. 45–46.
Langbein, W. B., “Geometry of River Channels,” Journal of the Hydraulics Division, ASCE, Vol. 90, No. HY2, Proc. Paper 3846Mar., 1964, pp. 301–312.
Langbein, W. B., and Leopold, L. B., “River Meanders—Theory of Minimum Variance,” Professional Paper 422–H, United States Geological Survey, Washington, D.C., 1966.
Langham, W. H., Foster, R. L., and Daniel, H. A., “The Amount of Dust in the Air at Plant Height During Wind Storms at Woodwell, Oklahoma, in 1936–37,” American Society of Agronomy Journal, Vol. 30, Madison, Wisc., 1938, pp. 139–144.
Larsen, I., discussion of “Heterogeneous Flow of Solids in Pipelines,” by I. Zandi and G. Govatos, Journal of the Hydraulics Division, ASCE, Vol. 94, No. HY1, Proc. Paper 5703Jan., 1968, pp. 332–333.
Lattman, L. H., “Cross Section of a Floodplain in a Moist Region of Moderate Relief,” Journal of Sedimentary Petrology, Vol. 30, 1960, pp. 275–282.
Laufer, J. “Recent Measurement in a Two-Dimensional Turbulent Channel,” Journal of Aeronautical Science, Vol. 17, No. 5, May, 1950, pp. 277–287.
Laursen, E. M., “Observations on the Nature of Scour,” Proceedings of Fifth Hydraulic Conference, Bulletin 34, University of Iowa, Iowa City, Iowa, June 9–11, 1952, pp. 179–197.
Laursen, E. M., discussion of “Some Effects of Suspended Sediment on Flow Characteristics,” Proceedings, Fifth Hydraulic Conference, Bulletin 34, University of Iowa Studies in Engineering, Iowa City, Iowa, 1953, pp. 155–158.
Laursen, E. M., “The Hydraulics of a Storm-Drain System for Sediment-Transporting Flow,” Iowa Highway Research Board, 1956.
Laursen, E. M., discussion of “Application of the Modified Einstein Procedure for Computation of Total Sediment Load,” Transactions, American Geophysical Union, Vol. 38, No. 5, Washington, D.C., Oct., 1957, pp. 768–773.
Laursen, E. M., “The Total Sediment Load of Streams,” Journal of the Hydraulics Division, ASCE, Vol. 54, No. HY1, Proc. Paper 1530Feb., 1958, pp. 1–36.
Laursen, E. M., “Scour at Bridge Crossings,” Transactions, ASCE, Vol. 127, Pt. I, Paper No. 3294, 1962, pp. 166–209.
Laursen, E. M., and Toch, A., “A Generalized Model Study of Scour Around Bridge Piers and Abutments,” Proceedings, Minnesota International Hydraulic Convention, Minneapolis, Minn., September 1–4, 1953, pp. 123–131.
Lazarus, J. H., and Kilner, F. A., “Incipient Motion of Solid Capsules in Pipelines,” Proceedings, 1st International Conference on Hydraulic Transportation of Solids in Pipes (Hydrotransport 1), British Hydromechanic Research Association, 1970.
Lee, J. J., discussion of “Some Turbulence Measurements in Water,” by F. Raichlen, Journal of the Engineering Mechanics Division, ASCE, Vol. 93, No. EM6, Proc. Paper 5620Dec., 1967, pp. 287–293.
Lelliavsky, S., An Introduction to Fluvial Hydraulics, Constable and Co., Ltd., London, England, 1955.
Leopold, L. B., and Maddock, T., Jr., “The Hydraulic Geometry of Stream Channels and Some Physiographic Implications,” Professional Paper 252, United States Geological Survey, Washington, D.C., 1953.
Leopold, L. B., and Wolman, M. G., “River Channel Patterns: Braided, Meandering and Straight,” Professional Paper 282–B, United States Geological Survey, Washington, D.C., 1957.
Leopold, L. B., and Wolman, M. G., “River Meanders,” Bulletin of Geological Society of America, Vol. 71, Boulder, Colo., 1960, pp. 769–796.
Leopold, L. B., Wolman, M. G., and Miller, J. P., Fluvial Processes in Geomorphology, W. H. Freeman & Co., San Francisco, Calif., 1964.
Liu, H. K., and Hwang, S. Y., “Discharge Formula for Straight Alluvial Channels,” Transactions, ASCE, Vol. 126, Part I, Paper No. 3276, 1961, pp. 1787–1822.
Livesey, R. H., “Channel Armoring below Fort Randall Dam,” Proceedings of the Federal Interagency Sedimentation Conference, 1965, Miscellaneous Publication No. 970, Agricultural Research Service, United States Department of Agriculture, Washington, D. C., 1963, pp. 461–470.
Long, D. V., “Mechanics of Consolidation with Reference to Experimentally Sedimented Clays,” thesis presented to the California Institute of Technology, at Pasadena, Calif., in 1961, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Lovera, F., and Kennedy, J. F., “Friction-Factors for Flat-Bed Flows in Sand Channels,” Journal of the Hydraulics Division, ASCE, Vol. 95, No. HY4, Proc. Paper 6678July, 1969, pp. 1227–1234.
Macagno, E. O., and Rouse, H., “Interfacial Mixing in Stratified Flow,” Transactions, ASCE, Vol. 127, Part I, Paper No. 3289, 1962, pp. 102–128.
Mackin, J. H., “Concept of the Graded River,” Bulletin of the Geological Society of America, Vol. 59, Boulder, Colo., 1948, pp. 463–512.
Maddock, T., Jr., discussion of “Recirculation and Sand-Feed Type Flume Experiments,” by H. P. Guy, R. E. Rathbun, and E. V. Richardson, Journal of the Hydraulics Division, ASCE, Vol. 94, No. HY4, Proc. Paper 6015July, 1968, pp. 1139–1147.
Maddock, T., Jr., “The Behavior of Straight Open Channels with Movable Beds,” Professional Paper 622-A, United States Geological Survey, Washington, D.C., 1969.
Maddock, T., Jr., discussion of “Instability of Flat Bed in Alluvial Channels,” by H. M. Hill, V. S. Srinivasan, and T. E. Unny, Jr., Journal of the Hydraulics Division, ASCE, Vol. 96, No. HY4, Proc. Paper 7189Apr., 1970, pp. 1080–1081.
Maddock, T., Jr., discussion of “Sediment Transportation Mechanics: F. Hydraulic Relations for Alluvial Streams,” by the Task Committee for Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 97, No. HY11, Proc. Paper 8483Nov., 1971, p. 1904.
Malina, F. J., “Recent Developments in the Dynamics of Wind Erosion,” Transactions, American Geophysical Union, Washington, D.C., 1941, pp. 262–284.
Martin, T. R., discussion of “Experiments on the Scour Resistance of Cohesive Sediments,” Journal of Geophysical Research, Vol. 67, No, 4, Washington, D.C., Apr., 1962, pp. 1447–1449.
Mathews, W. H., and Shepard, F. P., “Sedimentation of Fraser River Delta, British Columbia,” Bulletin, American Association of Petroleum Geologists, Vol. 46, Tulsa, Okla., 1962, pp. 1416–43.
Matsunashi, J., “Researches on Bed-Load Transportation Under the Tractive Force Near the Critical Limit,” Memoirs of the Faculty of Engineering, No. 4, Kobe University, Kobe, Japan, Mar., 1957, pp. 24–42.
Mavis, F. T., and Laushey, L. M., “Formula for Velocity at Beginning of Bed-Load Movement is Reappraised,” Civil Engineering, ASCE, Vol. 19, No. 1, Jan., 1949, pp. 38–39 and p. 72.
Mavis, F. T., and Laushey, L. M., discussion of “Sediment Transportation Mechanics: Initiation of Motion,” by the Task Committee for Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY5, Proc. Paper 4891, Sept., 1966, pp. 288–291.
McLaughlin, R. T., Jr., “The Settling Properties of Suspensions,” Journal of the Hydraulics Division, ASCE, Vol. 85, No. HY12, Proc. Paper 2311Dec., 1959, pp. 9–41.
McNown, J. S., Lee, H. M., McPherson, M. B., and Engez, S. M., “Influence of Boundary Proximity on the Drag of Spheres,” Proceedings, 7th International Congress for Applied Mechanics, Vol. 2, Part I, London, England, 1948, pp. 17–29.
McNown, J. S., and Lin, P. N., “Sediment Concentration and Fall Velocity,” Proceedings, 2nd Midwestern Conference on Fluid Mechanics, Ohio State University, Columbus, Ohio, 1952, pp. 401–411.
McNown, J. S., and Malaika, J., “Effect of Particle Shape on Settling Velocity at Low Reynolds Number,” Transactions, American Geophysical Union, Vol. 31, Washington, D.C., 1950, pp. 74–82.
McNown, J. S., and Newlin, J. T., “Drag of Spheres within Cylindrical Boundaries,” Proceedings, 1st Congress of Applied Mechanics, American Society of Mechanical Engineers, 1951, pp. 801–806.
McNown, J. S., Malaika, J. and Pramanik, R., “Particle Shape and Settling Velocity,” Transactions, 4th Meeting of the International Association for Hydraulic Research, Bombay, India, 1951, pp. 511–522.
McPherson, H. J., and Rannie, W. F., “Geomorphic Effects of the May 1967 Flood in Graburn Watershed, Cypress Hills, Alberta, Canada,” Journal of Hydrology, Vol. 9, 1969, pp. 307–321.
Melton, F. A., “An Empirical Classification of Flood-Plain Streams,” Geographical Review, Vol. 26, 1936, pp. 593–609.
Menard, H. W., “Sediment Movement in Relation to Current Velocity,” Journal of Sedimentary Petrology, Vol. 20, No. 3, Sept., 1950, pp. 148–160.
Metzner, A. B., “Flow of Non-Newtonian Fluids,” Handbook of Fluid Dynamics, Section 7, Streeter V., ed., McGraw-Hill Book Co., Inc., New York, N.Y., 1961.
Meyer-Peter, E., and Muller, R., “Formulas for Bed-Load Transport,” Report on Second Meeting of International Association for Hydraulic Research, Stockholm, Sweden, 1948, pp. 39–64.
Mih, W. C., Chen, C. K. and Osborn, J. F., Bibliography Solid-Liquid Transport in Pipelines, Albrook Hydraulic Laboratory, Washington State University, Pullman, Wash., 1971.
Miller, C. R., “Determination of Unit Weight of Sediment for Use in Sediment Volume Computations,” Memorandum, Bureau of Reclamation, United States Department of the Interior, Denver, Colo., February 17, 1953.
Mining Magazine, “Hydraulic Transport of Minerals,” Vol. 126, No. 4, Apr., 1972.
Monin, A. S., and Obukhov, A. M., Trudy, Geofizicheskii No. 24 (151), Leningrad, USSR, 1954, p. 163.
Moody, L. F., “Friction Factors for Pipe Flow,” Transactions, American Society of Mechanical Engineers, Vol. 66, No. 8, New York, N.Y., Nov., 1944, pp. 671–684.
Moore, W. L., and Masch, F. D., “Experiments on the Scour Resistance of Cohesive Sediments,” Journal of Geophysical Research, Vol. 67, No. 4, Washington, D.C., Apr., 1962, pp. 1437–1449.
Mostafa, M. G., and McDermid, R. M., discussion of “Sediment Transportation Mechanics: F. Hydraulic Relations for Alluvial Streams,” by the Task Committee for Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 97, No. HY10, Proc. Paper 8407Oct., 1971, pp. 1777–1780.
Nemenyi, P., “The Different Approaches to the Study of Propulsion of Granular Materials and the Value of Their Coordination,” Transactions, American Geophysical Union, Part II, Washington, D.C., 1940, pp. 633–647.
Newitt, D. M., Richardson, J. F., Abbott, M., and Turtle, R. B., “Hydraulic Conveying of Solids in Horizontal Pipes,” Transactions, Institution of Chemical Engineers, Vol. 33, 1955, pp. 93–113.
Newitt, D. M., Richardson, J. F., and Gliddon, B. J., “Hydraulic Conveying of Solids in Vertical Pipes,” Transactions, Institution of Chemical Engineers, Vol. 39, 1961, pp. 93–100.
Nichols, M., and Poor, G., “Sediment Transport in a Coastal Plain Estuary,” Journal of the Waterways and Harbors Division, ASCE, Vol. 93, No. WW4, Proc. Paper 5571Nov., 1967, pp. 83–95.
Nordin, C. F. Jr., “Aspects of Flow Resistance and Sediment Transport: Rio Grande near Bernalillo, New Mexico,” Water-Supply Paper 1498-H, United States Geological Survey, Washington, D.C., 1964.
Nordin, C. F. Jr., and Algert, J. H., “Spectral Analysis of Sand Waves,” Journal of the Hydraulics Division, ASCE, Vol. 92, HY5, Proc. Paper 4910, Sept., 1966, pp. 95–114.
Novak, P., “Experimental and Theoretical Investigations of the Stability of Prisms on the Bottom of a Flume,” Proceedings, Second Conference of International Association for Hydraulic Research, Stockholm, Sweden, 1948, pp. 77–91.
O’Brien, M. P., “Review of the Theory of Turbulent Flow and Its Relation to Sediment Transportation,” Transactions, American Geophysical Union, Washington, D.C., April 27–29, 1933, pp. 487–491.
O’Brien, M. P., and Rindlaub, B. D., “The Transport of Sand by Wind,” Civil Engineering, ASCE, Vol. 6, No. 5, 1936, pp. 325.
O’Brien, M. P., and Folsom, R. G., “The Transportation of Sand in Pipelines,” publication in Engineering, Vol 3, University of California, Berkeley, Calif., 1937, pp. 343–384.
O’Loughlin, E. M., and MacDonald, E. G., “Some Roughness-Concentration Effects on Boundary Resistance,” La Houille Blanche, No. 7, 1964, pp. 773–783.
Onishi, Y., Jain, S. C., and Kennedy, J. F., “Effects of Meandering on Sediment Discharges and Friction Factors of Alluvial Streams,” 11HR Report No. 141, Iowa Institute of Hydraulic Research, University of Iowa, Iowa City, Iowa, Sept., 1972.
Otto, G. H., “A Modified Logarithmic Probability Graph for the Interpretation of Mechanical Analyses of Sediments,” Journal of Sedimentary Petrology, Vol. 9, No. 2, Aug., 1939, pp. 62–76.
Paintal, A. S., and Garde, R. J., discussion of “Sediment Transportation Mechanics: Suspension of Sediment,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 90, No. HY4, Proc. Paper 3980July, 1964, pp. 257–265.
Panofsky, H. A., Blackadar, A. K., and McVehil, G. E., “The Diabatic Wind Profile,” Quarterly Journal of the Royal Meteorological Society, Vol. 86, No. 369, 1960, pp. 390–398.
Park, F. J., “Torrential Potential of Desert Waters,” Pan-American Geologist, Vol. 40, 1923, pp. 349–356.
Partheniades, E., “Erosion and Deposition of Cohesive Soils,” Journal of the Hydraulics Division, ASCE, Vol. 91, No. HY1, Proc. Paper 4204Jan., 1965, pp. 105–139.
Partheniades, E., and Paaswell, R. E., “Erodibility of Channels with Cohesive Boundary,” Journal of the Hydraulics Division, ASCE, Vol. 96, No. HY3, Proc. Paper 7156Mar., 1970, pp. 755–771.
Pettijohn, F. J., and Potter, P. E., Atlas of Primary Sedimentary Structures, Springer-Verlag, Berlin, Germany, 1964.
Péwé, T. L., “An Observation of Wind-blown Silt,” Journal of Geology, Vol. 59, 1951, pp. 399–401.
Pierce, R. C., “The Measurement of Silt Laden Streams,” Water-Supply Paper 400, United States Geological Survey, Washington, D.C., 1917.
Prandtl, L., Essentials of Fluid Dynamics, Hafner Publishing Co., New York, N.Y., 1952.
Raichlen, F., “Some Turbulence Measurements in Water,” Journal of the Engineering Mechanics Division, ASCE, Vol. 93, No. EM2, Proc. Paper 5195Apr., 1967, pp. 73–97.
Rand, W., discussion of “Some Effects of Suspended Sediment on Flow Characteristics,” Proceedings, Fifth Hydraulic Conference, Bulletin 34, State University of Iowa, Studies in Engineering, Iowa City, Iowa, 1953, pp. 156–158.
Rathbun, R. E., and Goswami, A., discussion of “Sediment Transportation Mechanics: Initiation of Motion,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY6, Proc. Paper 4959Nov., 1966, pp. 251–253.
Rathbun, R. E., Guy, H. P., and Richardson, E. V., “Response of a Laboratory Alluvial Channel to Changes of Hydraulics and Sediment-Transport Variables, Professional Paper 562-D, United States Geological Survey, 1969.
Raudkivi, A. J., “Study of Sediment Ripple Formation,” Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY6, Proc. Paper 3692Nov., 1963, pp. 15–33.
Raudkivi, A. J., discussion of “Sediment Transportation Mechanics: Initiation of Motion,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY6, Proc. Paper 4959Nov., 1966, pp. 253–255.
Raudkivi, A. J., “Analyses of Resistance in Fluvial Channels,” Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY5, Proc. Paper 5426, Sept., 1967, pp. 73–84.
Raudkivi, A. J., discussion of “Sediment Transportation Mechanics: F. Hydraulic Relations for Alluvial Streams,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 97, No. HY12, Proc. Paper 8552Dec., 1971, pp. 2089–2093.
Raynaud, J. P., “Study of Currents of Muddy Water through Reservoirs,” Fourth Congress on Large Dams, New Delhi, India, Vol. 4, 1951, p. 137 (in French).
Reynolds, A. J., “Waves on the Erodible Bed of an Open Channel,” Journal of Fluid Mechanics, Vol. 22, 1965, pp. 113–133.
Rossby, C. G., and Montgomery, R. B., “The Layer of Frictional Influence in Wind and Ocean Currents,” Papers in Physical Oceanography and Meteorology, Massachusetts Institute of Technology and Woods Hole Oceanographic Institute, Vol. 3, No. 3, 1935.
Rouse, H., “Modern Conceptions of the Mechanics of Fluid Turbulence,” Transactions, ASCE, Vol. 102, Paper No. 1965, 1937a, pp. 463–543.
Rouse, H., “Nomogram for the Settling Velocity of Spheres,” Division of Geology and Geography Exhibit D of the Report of the Commission on Sedimentation, 1936–37, National Research Council, Washington, D.C., Oct., 1937b., pp. 57–64.
Rouse, H., “Experiments on the Mechanics of Sediment Suspension,” Proceedings, Fifth International Congress for Applied Mechanics, Vol. 55, John Wiley and Sons, Inc., New York, N.Y., 1938.
Rouse, H., “An Analysis of Sediment Transportation in the Light of Fluid Turbulence,” Soil Conservation Service Report No. SCS-TP-25, United States Department of Agriculture, Washington, D.C., 1939.
Rouse, H., “Criteria for Similarity in the Transportation of Sediment,” Proceedings of 1st Hydraulic Conference, Bulletin 20, State University of Iowa, Iowa City, Iowa, Mar., 1940, pp. 33–49.
Rouse, H., “Critical Analysis of Open-Channel Resistance,” Journal of the Hydraulics Division, ASCE, Vol. 91, No. HY4, Proc. Paper 4387July, 1965, pp. 1–25.
Rouse, H., ed., Engineering Hydraulics, John Wiley and Sons, Inc., New York, N.Y., 1950, pp. 769–857.
Rubey, W. W., “Settling Velocities of Gravel, Sand and Silt Particles,” American Journal of Science, 5th series, Vol. 25, No. 148, 1933, pp. 325–338.
Rubey, W. W., “The Forces Required to Move Particles on a Stream Bed,” Professional Paper 189B, United States Geological Survey, Washington, D.C., 1948.
Russell, R. J., and Russell, R. D., “Mississippi River Delta Sedimentation, Recent Marine Sediments,” American Association of Petroleum Geologists, Tulsa, Okla., 1939, pp. 153–177.
Sayre, W. W., and Albertson, M. L., “Roughness Spacing in Rigid Open Channels,” Transactions, ASCE, Vol. 128, Paper No. 3417, 1963, pp. 343–372.
Schmidt, W., “Der Massenaustausch in freier Luft und verwandte Erscheinungen,” Probleme der kosmischen Physik, Band 7, Hamburg, Germany, 1925.
Schmudde, T. H., “Some Aspects of Land Forms of the Lower Missouri River Flood-Plain,” Annals, Association of American Geographers, Vol. 53, Washington, D.C., 1963, pp. 60–73.
Schumm, S. A., “The Shape of Alluvial Channels in Relation to Sediment Type,” Professional Paper 352-B, United States Geological Survey, Washington, D.C., 1960.
Schumm, S. A., “Sinuosity of Alluvial Rivers in the Great Plains,” Bulletin of the Geological Society of America, Vol. 74, Sept., 1963, pp. 1089–1100.
Scimemi, E., discussion of “Model Study of Brown Canyon Debris Barrier,” Transactions, ASCE, Vol. 112, Paper No. 2319, 1947, pp. 1016–1019.
Settle, J. J., and Parkins, R., ICI Ltd., General Chemicals Division, Chief Engineers Department, 1951; see also
“Correlation for Use in Transport of Aqueous Suspensions of Fine Solids Through Pipes,” by K. E. Spells, Transactions, Institution of Chemical Engineers, Vol. 33, 1955.
Sharpe, C. F. S., Landslides and Related Phenomena, Columbia University Press, New York, N.Y., 1938.
Sharp, R. P., “Mudflow Levees,” Journal of Geomorphology, Vol. 5, 1942, pp. 222–227.
Sharp, R. P., and Nobles, L. H., “Mudflow of 1941 at Wrightwood, Southern California,” Bulletin, Geological Society of America, Vol. 64, Boulder, Colo., 1953, pp. 547–560.
Shen, H. W., “Development of Bed Roughness in Alluvial Channels,” Journal of the Hydraulics Division, ASCE, Vol. 88, No. HY3, Proc. Paper 3113May, 1962, pp. 45–58.
Shen, H. W., and Wang, J. S., “Incipient Motion and Limiting Deposit Conditions of Solid-liquid Pipe Flow,” Proceedings, 1st International Conference on Hydraulic Transportation of Solids In Pipes (Hydrotransport 1), British Hydromechanic Research Association, 1970.
Sheppard, P. A., “The Aerodynamic Drag of the Earth’s Surface and the Value of von Kármán’s Constant in the Lower Atmosphere,” Proceedings, Royal Society of London, Vol. 188A, No. 1013, 1947, pp. 208–222.
Shields, A., “Anwendung der Aenlichkeitsmechanik und der Turbulenzforschung auf die Geschiebebewegung,” Mitteilungen der Preussischen Versuchsanstalt fur Wasserbau und Schiffbau, Berlin, Germany, translated to English by Ott W. P. and van Uchelen J. C., California Institute of Technology, Pasadena, Calif., 1936.
Shih, C. S., “Hydraulic Transport of Solids in a Sloped Pipe,” Journal of the Pipeline Division, ASCE, Vol. 90, No. PL2, Proc. Paper 4125Nov., 1964, pp. 1–14.
Shih, C. S., closure to “Hydraulic Transport of Solids in a Sloped Pipe,” Journal of the Pipeline Division, ASCE, Vol. 93, No. PL1, Proc. Paper 5125Mar., 1967, pp. 49–51.
Shulits, S., “The Schoklitsch Bed-load Formula,” Engineering, London, England, June 21, 1935, pp. 644–646; and June 28, 1935, p. 687.
Shulits, S., and Hill, R. D., Jr., “Bedload Formulas,” Bulletin, Department of Civil Engineering, Hydraulics Laboratory, Pennsylvania State University, University Park, Pa., Dec., 1968.
Simons, D. B., and Albertson, M. L., “Uniform Water Conveyance Channels in Alluvial Material,” Transactions, ASCE, Vol. 128, Part 1, Paper No. 3399, 1963, pp. 65–107.
Simons, D. B., and Richardson, E. V., “Resistance to Flow in Alluvial Channels,” Professional Paper 422J, United States Geological Survey, Washington, D.C., 1966.
Simons, D. B., Richardson, E. V., and Haushild, W. L., “Some Effects of Fine Sediments on Flow Phenomena,” Water-Supply Paper 1498G, United States Geological Survey, Washington, D.C., 1963.
Sinclair, C. G., “The Limit Deposit-Velocity of Heterogeneous Suspensions,” Proceedings of the Symposium on Interaction Between Fluids and Particles, European Federation of Chemical Engineers, London, England, June, 1962, pp. 78–86.
Smerdon, E. T., and Beasley, R. P., “Critical Tractive Forces in Cohesive Soils,” Agricultural Engineering, St. Joseph, Mich., Jan., 1961, pp. 26–29.
Smith, R. A., Transactions, Institution of Chemical Engineers, Vol. 33, 1955, p. 85; see also
Sinclair, G. C., 1962.
Smith, R. A., and Carruthers, G. A., ICI Ltd., Billingham Division, Engineering Research Department, 1951; see also
Spells, K. E., 1955.
Soo, S. L., Fluid Dynamics of Multiphase System, Blaisdell Publishing Co., Waltham, Mass., 1969.
Spells, K. E., “Correlations for Use in Transport of Aqueous Suspensions of Fine Solids Through Pipes,” Transactions, Institution of Chemical Engineers, Vol. 33, 1955, pp. 79–84.
Stepanoff, A. J., “Pumping Solid Liquid Mixture,” Mechanical Engineering, Vol. 86, No. 9, Sept., 1964.
Stepanoff, A. J., Pumps and Blowers: Selected Advance Topics Two-Phase Flow; Flow and Pumping of Solids in Suspension and Fluid Mixture, John Wiley and Sons, Inc., New York, N.Y., 1965.
Streeter, V. L., Fluid Mechanics, McGraw-Hill Book Co., Inc., New York, N.Y., 1962.
Straub, L. G., “Missouri River Report,” House Document 238, Appendix XV, Corps of Engineers, United States Department of the Army to 73rd United States Congress, 2nd Session, 1935, p. 1156.
Sundborg, A., “The River Klaralven, a Study of Fluvial Processes,” Geografiska Annaler, 1956, pp. 127–316.
Sutherland, A. J., discussion of “Sediment Transportation Mechanics: Initiation of Motion,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY6, Proc. Paper 4959Nov., 1966, pp. 255–257.
Sutherland, A. J., “Proposed Mechanism for Sediment Entrainment by Turbulent Flows,” Journal of Geophysical Research, Vol. 72, No. 24, 1967, pp. 6183–6194.
Sutton, O. G., “The Application to Micrometeorology of the Theory of Turbulent Flow over Rough Surfaces,” Quarterly Journal of the Royal Meteorological Society, Vol. 75, No. 326, 1949, p. 342.
Sutton, O. G., Atmospheric Turbulence, John Wiley and Sons, Inc., New York, N.Y., 2nd ed., 1955, p. 111.
Sverdrup, H. U., “The Eddy Conductivity of the Air over a Smooth Snow Field,” Geofysiske Publikationer, Vol. VII, No. 7, Met. Zeit. 53, Oslo, Norway, 1936.
Swaminathan, K. R., and Dakshinamurti, C., discussion of “Sediment Transportation Mechanics: H. Sediment Discharge Formulas,” by the Task Committee for Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. No. 98, No. HY1, Proc. Paper 8620Jan., 1972, p. 289.
Swineford, A., and Frye, J. C., “A Mechanical Analysis of Wind-Blown Dust Compared with Analysis of Loess,” American Journal of Science, Vol. 243, 1945, pp. 249–255.
Tanaka, S., and Fugimoto, S., “On the Distribution of Suspended Sediment in Experimental Flume Flow,” Memoirs of the Faculty of Engineering, No. 5, Kobe University, Kobe, Japan, 1958.
Tarapore, Z. S., “Scour Below a Submerged Sluice Gate,” thesis presented to the University of Minnesota, at Minneapolis, Minn., in 1956, in partial fulfillment of the requirements for the degree of Master of Science.
Tarapore, Z. S., and Dixit, J. G., discussion of “Sediment Transportation Mechanics: H. Sediment Discharge Formula,” by the Task Committee for Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 98, No. HY2, Proc. Paper 8681Feb., 1972, pp. 388–390.
Taylor, G. I., “Diffusion by Continuous Movements,” Proceedings, London Mathematical Society, Vol. 20, 1921, pp. 196–211.
Taylor, G. I., Some Recent Developments in the Study of Turbulence, Fifth International Congress for Applied Mechanics, Cambridge, Mass., John Wiley and Sons, Inc., New York, N.Y., 1938.
Taylor, B. D., “Temperature Effects in Alluvial Streams,” Report No. KH-R-27, W. M. Keck Laboratory of Hydraulics and Water Resources, California Institute of Technology, Pasadena, Calif., 1971.
Taylor, B. D., and Vanoni, V. A., discussion of “Effects of Water Temperature on Bed-Load Movement,” Journal of the Waterways and Harbors Division, ASCE, Vol. 95, No. WW2, Proc. Paper 6528May, 1969, pp. 247–255.
Taylor, B. D., and Vanoni, V. A., “Temperature Effects in Low-Transport, Flat-Bed Flows,” Journal of the Hydraulics Division, ASCE, Vol. 97, No. HY8, Proc. Paper 9105Aug., 1972a, pp. 1427–1445.
Taylor, B. D., and Vanoni, V. A., “Temperature Effects in High-Transport, Flat-Bed Flows,” Journal of the Hydraulics Division, ASCE, Vol. 98, No. HY12, Proc. Paper 9456Dec., 1972b, pp. 2191–2206.
Taylor, R. H., and Jr., Brooks, N. H., discussion of “Resistance to Flow in Alluvial Channels,” Transactions, ASCE, Vol. 127, Part I, Paper No. 3360, 1962, pp. 982–992.
Tek, M. R., “Two-Phase Flow,” Handbook of Fluid Dynamics, Streeter V. L., ed., Section 17, McGraw-Hill Book Co., Inc., New York, N.Y., 1961.
Terzaghi, K., Theoretical Soil Mechanics, John Wiley and Sons, Inc., New York, N.Y., 1943.
Thomas, D. G., “Transport Characteristics of Suspensions: Part VI, Minimum Transport Velocity in Large Particle Size Suspensions in Round Horizontal Pipes,” American Institute of Chemical Engineers Journal, July, 1962.
Thornthwaite, C. W., and Koser, P., “Wind Gradient Observations,” Transactions, American Geophysical Union, Vol. 24, Part I, Washington, D.C., 1943, pp. 166–181.
Tinney, E. R., “A Study of the Mechanics of Degradation of a Bed of Uniform Sediment in an Open Channel,” thesis presented to the University of Minnesota, at Minneapolis, Minn., in 1955, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Tison, L. J., “Studies of the Critical Tractive Force for the Entrainment of Bed Materials,” Proceedings, Minnesota International Hydraulics Conference, Minneapolis, Minn., 1953, pp. 21–35.
Tison, L. J., “Local Scour in Rivers,” Journal of Geophysical Research, Vol. 66, No. 12, Dec., 1961, pp. 4227–4232.
Toffaleti, F. B., “A Procedure for Computation of the Total River Sand Discharge and Detailed Distribution, Bed to Surface,” Technical Report No. 5, Committee on Channel Stabilization, Corps of Engineers, United States Army, Vicksburg, Miss., Nov., 1968.
Toffaleti, F. B., “Definitive Computations of Sand Discharge in Rivers,” Journal of the Hydraulics Division, ASCE, Vol. 95, No. HY1, Proc. Paper 6350Jan., 1969, pp. 225–248.
Tracy, H. J., and Lester, C. M., “Resistance Coefficients and Velocity Distribution in a Smooth Rectangular Channel,” Water-Supply Paper 1592-A, United States Geological Survey, Washington, D.C., 1961.
Trask, P., “Compaction of Sediments,” Bulletin, American Association of Petroleum Geologists, Vol. 15, Tulsa, Okla., 1931, pp. 271–276.
Trowbridge, A. C., “Building of Mississippi Delta,” Bulletin, American Association of Petroleum Geologists, Vol. 14, Tulsa, Okla., 1930, pp. 867–901.
Turtle, R., “The Hydraulic Conveying of Granular Material,” thesis presented to London University, at London, England, in 1952, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Udden, J. A., “Erosion, Transportation, and Sedimentation Performed by the Atmosphere,” Journal of Geology, Vol. 2, 1894, pp. 318–331.
United States Army Corps of Engineers, “An Analytical Study of the Degradation and Aggradation Problem at the Fort Randall and Gavins Point Projects, Omaha District,” Omaha, Neb., May, 1949.
United States Army Corps of Engineers, “Sediment Transportation Characteristics—Study of Missouri River at Omaha, Nebr.,” United States Engineer Office, Omaha, Neb., 1951.
United States Army Corps of Engineers, “Missouri River Channel Regime Studies,” MRD Sediment Series No. 13A, United States Army Engineer District, Omaha, Neb., Nov., 1968.
United States Army Corps of Engineers, “Missouri River Channel Regime Studies, Omaha District,” MRD Sediment Series No. 13B, Nov., 1969.
United States Bureau of Reclamation, “Total Sediment Transport Program, Lower Colorado River Basin, Denver, Colorado,” Interim Report, Jan., 1958.
United States Department of Agriculture, “Soils and Men,” Yearbook of Agriculture, United States Government Printing Office, Washington, D.C., 1938.
Van Driest, E. R., “Experimental Investigation of Turbulent Diffusion—A Factor in Transportation of Sediment in Open-Channel Flow,” Journal of Applied Mechanics, June, 1945, pp. A-91-A-100.
van Olpen, H., An Introduction to Clay Colloid Chemistry, Interscience Publishers, New York, N.Y., 1963.
Vanoni, V. A., “Transportation of Suspended Sediment by Water,” Transactions, ASCE, Vol. 111, Paper No. 2267, 1946, pp. 67–133.
Vanoni, V. A., “A Summary of Sediment Transportation Mechanics,” Proceedings, Third Midwestern Conference on Fluid Mechanics, University of Minnesota, Minneapolis, Minn., 1953a, pp. 129–160.
Vanoni, V. A., “Some Effects of Suspended Sediment on Flow Characteristics,” Proceedings, Fifth Hydraulic Conference, Bulletin 34, State University of Iowa, Studies in Engineering, Iowa City, Iowa, 1953b, pp. 137–158.
Vanoni, V. A., “Sedimentacion y Erosion en Tranques,” Revista Chilena de Ingenieria y Anales del Instituto de Ingenieros, Vol. 75, No. 2, Santiago, Chile, March, April, May, 1962, pp. 17–23.
Vanoni, V. A., and Brooks, N. H., “Laboratory Studies of the Roughness and Suspended Load of Alluvial Streams,” Sedimentation Laboratory Report No. E68, California Institute of Technology, Pasadena, Calif., Dec., 1957.
Vanoni, V. A., and Hwang, Li San.“Relation Between Bed Forms and Friction in Streams,” Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY3, Proc. Paper 5242May, 1967, pp. 121–144.
Vanoni, V. A., and Nomicos, G. N., “Resistance Properties of Sediment Laden Streams,” Transactions, ASCE, Vol. 125, Paper No. 3055, 1960, pp. 1140–1175.
Vanoni, V. A., Brooks, N. H., and Kennedy, J. F., lecture Notes on “Sediment Transportation and Channel Stability,” Report No. KH-R-1, W. M. Keck Laboratory of Hydraulics and Water Resources, California Institute of Technology, Pasadena, Calif., 1960.
Varnes, D. J., “Landslide Types and Processes,” Special Report 29, Highway Research Board, National Academy of Sciences—National Research Council Publication 544, 1958, pp. 20–47.
Vogt, E. G., and White, R. R., “Friction in the Flow of Suspensions (Granular Solids in Gases Through Pipe),” Industrial and Engineering Chemistry, Vol. 40, No. 9, Sept., 1948.
von Kármán, T., “Turbulence and Skin Friction,” Journal of the Aeronautical Sciences, Vol. 1, No. 1, Jan., 1934, pp. 1–20.
von Kármán, T., “Sand Ripples in the Desert,” Technion Yearbook, Vol. 6, 1947, pp. 52–54.
Wadell, H. “Volume, Shape and Roundness of Rock Particles,” Journal of Geology, Vol. 40, 1932, pp. 443–451.
Wadell, H., “Sphericity and Roundness of Rock Particles,” Journal of Geology, Vol. 41, 1933, pp. 310–331.
Wadell, H., “Volume, Shape and Roughness of Quartz Particles,” Journal of Geology, Vol. 43, 1935, pp. 250–280.
Waggoner, P. E., and Bingham, C., “Depth of Loess and Distance from Source,” Soil Science, Vol. 92, 1961, pp. 396–401.
Warn, F. G., and Cox, W. H., “A Sedimentary Study of Dust Storms in the Vicinity of Lubbock, Texas,” American Journal of Science, Vol. 249, 1951, pp. 553–568.
Wasp, E. J., Ande, T. C., Seiter, R. H., and Thompson, T. L., “Hetero-Homogeneous Solids-liquid Flow in the Turbulent Regime,” Advances in Solid-liquid Flow in Pipes and its Application, Zandi I., ed., Pergamon Press, Inc., New York, N.Y., 1971.
Weisman, J., “Minimum Power Requirements for Slurry Transport,” American Institute of Chemical Engineers Journal, Jan., 1963.
Welder, F. A., “Processes of Deltaic Sedimentation in the Lower Mississippi River,” Technical Report No. 12, Coastal Studies Institute, Louisiana State University, Baton Rouge, La., 1959.
West Pakistan, “Canal and Headworks Data Observation Programme 1962–63 Data Tabulation,” Part I, West Pakistan Water and Power Development Authority, Lahore, W. Pakistan, 1962.
White, C. M., “The Equilibrium of Grains on the Bed of a Stream,” Proceedings, Royal Society of London, Series A, No. 958, Vol. 174, Feb., 1940, pp. 322–338.
Wicks, M., “Transport of Solids at Low Concentration in Horizontal Pipes,” Advances in Solid-liquid Flow in Pipes and its Application, Zandi I., ed., Pergamon Press, Inc., New York, N.Y., 1971.
Willis, J. C., discussion of “Sediment Transportation Mechanics: Initiation of Motion,” by the Task Committee on Preparation of Sedimentation Manual, Committee on Sedimentation of the Hydraulics Division, Vito A. Vanoni, Chmn., Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY1, Proc. Paper 5059Jan., 1967, pp. 101–107.
Willis, J. C., and Coleman, N. L., “Coordination of Data on Sediment Transport in Flumes by Similitude Principles,” Water Resources Research, Vol. 5, No. 6, Dec., 1969, pp. 1330–1336.
Wilson, K. C., “Bed Load Transport at High Shear Stress,” Journal of the Hydraulics Division, ASCE, Vol. 92, No. HY6, Proc. Paper 4968Nov., 1966, pp. 49–59.
Wilson, K. C., and Brebner, A., “On Two-phase Pressurized and Unpressurized Flow Behaviour Near Deposition Points,” Advances in Solid-liquid Flow in Pipes and its Application, Zandi I., ed., Pergamon Press, Inc., New York, N.Y., 1971.
Wilson, W. E., “Mechanics of Flow, with Non-Colloidal Inert Solids,” Transactions, ASCE, Vol. 107, Paper No. 2167, 1942, pp. 1576–1594.
Wolman, M. G., and Leopold, L. B., “River Flood Plains: Some Observations on their Formation,” Professional Paper 282–C, United States Geological Survey, Washington, D.C., 1957.
Wood, I. R., “Horizontal Two-Dimensional Density Current,” Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY2, Proc. Paper 5139Mar., 1967, pp. 35–42.
Woodruff, N. P., “A Study of the Atmospheric Wind Gradient in the Layer Near the Ground,” thesis presented to Kansas State University, at Manhattan, Kans., in 1952, in partial fulfillment of the requirements for the degree of Master of Science.
Woolley, R. R., “Cloudburst Floods in Utah 1850–1938,” Water Supply Paper 994, United States Geological Survey, Washington, D.C., 1946.
Worster, R. C., “The Hydraulic Transport of Solids,” Proceedings of a Colloquium on the Hydraulic Transport of Coal, National Coal Board, London, England, November 5, 1952.
Yotsukura, N., “Sediment Transport in a Pipe,” thesis presented to Colorado State University, at Fort Collins, Colo., in 1961, in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Yubin, A. P., Izyestiya U-Ser. Tekhn. Nauk., No. 8, Aug., 1949, p. 1146.
Zabrodsky, S. S., “Hydrodynamics and Heat Transfer in Fluidized Beds,” (“Gidrodinamika i Teploperenos V Kipyaschem Sloye” by Fizmatgiz, Moscow-Leningrad, 1963) MIT Press, Cambridge, Mass., 1966.
Zandi, I., “Decreased Head Losses in Raw-Water Conduits,” Journal of the American Water Works Association, Vol. 59, No. 2, Feb., 1967.
Zandi, I. Advances in Solid-liquid Flow in Pipes and its Application, Pergamon Press, Inc., New York, N.Y., 1971.
Zandi, I., and Govatos, G., “Heterogeneous Flow of Solids in Pipelines,” Journal of the Hydraulics Division, ASCE, Vol. 93, No. HY3, Proc. Paper 5244May, 1967, pp. 145–159.
Zandi, I., and Haydon, J. A., “A Pneumo-Slurry System of Collecting and Removing Solid Wastes,” Advances in Solid-liquid Flow in Pipes and its Application, Zandi I., ed., Pergamon Press, Inc., New York, N.Y., 1971.
Zenz, F. A., “Fluid Catalyst Design Data,” Petroleum Refiner, Vol. 36, Nos. 4–11, 1957;
Russian Translation “Catalysts for Cracking in Fluidized Beds,” (Katalizatory Krekinga v Kipyashchem Sloe), Izd. Gosinti, Moscow, USSR, 1958.
Zenz, F. A., and Othmer, D. F., Fluidization and Fluid-Particle Systems, Reinhold Publishing Corp., New York, N.Y., 1960.
Zernial, G. A., and Laursen, E. M., “Sediment Transporting Characteristics of Streams,” Journal of the Hydraulics Division, ASCE, Vol. 89, No. HY1, Proc. Paper 3396Jan., 1963, pp. 117–137.
Zingg, A. W., “The Intensity-frequency of Kansas Winds,” SCS-TP-88, United States Department of Agriculture, Soil Conservation Service, Washington, D.C., 1950.
Zingg, A. W., “Evaluation of the Erodibility of Field Surfaces with a Portable Wind Tunnel,” Proceedings, Soil Science Society of America, Vol. 15, Madison, Wisc., 1951, pp. 11–17.
Zingg, A. W., “Some Characteristics of Aeolian Sand Movement by Saltation Process,” Editions du Centre National de la Recherche Scientifique 13, Quai Anatole France, Paris (7e), France, 1953a, pp. 197–208.
Zingg, A. W., “Wind Tunnel Studies of the Movement of Sedimentary Materials,” Bulletin 34, Proceedings of the 5th Hydraulics Conference, Iowa Institute of Hydraulics, Iowa City, Iowa, 1953b, pp. 111–135.
Zingg, A. W., and Chepil, W. S., “Aerodynamics of Wind Erosion,” Agricultural Engineering, Vol. 31, 1950, pp. 279–282, 284.
Znamenskaya, N. S., “The Analysis of Estimating of Energy Losses by Instantaneous Velocity Distribution of Streams with Movable Bed,” Proceedings, Twelfth Congress of the International Association for Hydraulic Research, Paper No. A4, Vol. 1, Sept., 1967, pp. 27–30.
Information & Authors
Information
Published In
Sedimentation Engineering
Pages: 11 - 189
History
Published online: Mar 21, 2013
ASCE Technical Topics:
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.