Present situation of basic river hydraulics problems

1. F. Hartung and H. Sheuerlein (Germany), Macroturbulent Flow in Steep Open Channels with High Natural Roughness.

2. T. E. Harbaugh and Ven Te Chow (US), A study of the Roughness of Conceptual River Systems or Watersheds.

3. T. Blench (Canada). Inductive Approach to Phases of Movable-Bed Roughness.

4. N. S. Znamenskaya (USSR). The Analysis and Estimating of Energy Losses by Instantaneous Velocity Distribution of Streams with Movable Bed.

5. E. Marchi (Italy), Resistance to Flow in Fixed-Bed Channels with the Influence of Cross-Sectional Shape and Free Surface.

6. L. Robillard and J. F. Kennedy (US). Some Experimental Observations on Free Surface Shear Flow over a Wavy Boundary.

7. H. Kikkawa, H. Shi-igai, and S. Fuduoka (Japan). On the Effects of Suspended Sediments on Bed Roughness.

8. M. Viparelli and M. Pica (Italy). Streams in Large Alluvial Beds of High Slope.

9. I. V. Egiazaroff (USSR), Hydraulic Resistance of Movable Bed and Sediment Grading Influence.

10. L. Cunga and Da Veiga (Portugal), Roughness in Alluvial Channels with Comparatively Coarse Bed Materials.

11. J. V. Galay (Canada), Observed Forms of Bed Roughness in an Unstable Gravel River.

12. S. Bruk and Z. Volf (Yugoslavia). Determination of Roughness Coefficients for Very Irregular Rivers with Large Flood Plains.

13. J. Vucetic (Yugoslavia), Proposition for a More Accurate Determination of Roughness Coefficient of the River Bed.

14. J. T. Whetten and T. J. Fullam (US). Columbia River Bed Forms.

15. G. B. Swanson (US). Recognition of Scour of River Channel for Design Purposes.

16. P. Argyropoulos (Greece). Modern Considerations and New Data on River Bed Roughness.

17. Feng-Ming Chang, D. B. Simons and E. V. Richardson (US). Total Bed Load Discharge in Alluvial Channels.

18. E. V. Richardson and D. B. Simons (US). Resistance to Flow in Sand Channels.

19. F. Senturk (Turkey), Determination of the Resistance of a Movable River Bed.

20. J. Vincent (Czechoslovakia). Effect of Bedload Movement on Values of the Roughness Coefficient.

21. J. Martinec (Czechoslovakia). The Effect of Sand Ripples on the Increase of River Bed Roughness.

22. L. Rakoczi (Hungary). Experimental Study of Flume-Bed Roughness.

23. R. E. Rathbun and H. P. Guy (US). Effect of Non-Equilibrium Flow Conditions on Sediment Transport and Bed Roughness in a Laboratory Alluvial Channel.

24. T. Bursali (Turkey). Bottom Shear Measurement in Open-Channel Flow.

25. A. S. Harrison and W. J. Mellema (US). Movable Bed Model for Alluvial Channel Studies.

26. K. A. Zvorykin (USSR). Comparison of Investigations under Natural Conditions of a Plan Expansion of a Stream with Computational and Experimental Results.

27. J. W. Delleur, G. H. Toebes, and B. C. Udeozo (US), Uniform Flow in Idealized Channel-Flood Plain Geometries.

28. K. V. Grishanin (USSR). The Similarity in flows in Straight Reaches of Rivers.

29. D. Franco (US). Effects of Stages on Scour along Riverbanks.

30. I. A. Sherenkov (USSSR). Hydraulic Solution and Definition of the Unstability Criterion of Stream Wandering within Bed, and Vortex Zones.

31. Z. Szigyarto (Hungary). Experiments for the Verification of the Passage Theory.

32. J. S. Gandolfo (Argentina). Delimitation of a Reach of Rapids in a River.

33. P. A. Argryropoulos (Greece). Cross-Sectional Shape and Irregularities in River Channels.

34. T. Gorsky (Czechoslovakia), Gradually Varied Flow in Nonprismatic Channels.

35. J. Nougaro, S. Dalmayrac, and Cl. Thirriot (France). Influence of River Profile Variation on Gradually Varied Flow.

36. C. C. Shin and N. S. Grigg (US). A Reconsideration of the Hydraulic Radius as a Geometric Quantity in Open Channel Hydraulics.

37. Y. Labye, J. Nougaro (France). Method of Computing Channels with Polygonal Cross Section.

38. W. Rakotoarivelo and F. Sananes (France). Study of Supercritical Flow in a U-Shaped Canal.

39. V. Strauss (Czechoslovakia). The Kinetic Energy Correction Factor and the Momentum Correction Factor in Open Channels.

40. O. Gyorke (Hungary). On the Velocity Coefficient and Hydraulic Roughness in Meandering Watercourses.

41. A. P. Gildea and R. F. Wong (US). Flood Control Channel Hydraulics.

42. S. Adachi (Japan) A Theory of Stability of Streams.

43. Yu. A. Ibad-Zade and T. N. Kiyasbeili (USSR). River Bed Forms in Linear and Curvilinear Reaches of Rivers and Big Channels.

44. J. Matsunashi (Japan). Solution of Bed Fluctuation in Open Channel with Movable Bed on Steep Slope.

45. G. H. Toebes and T. P. Chang (US). Planform Analysis of Meandering Rivers.

46. A. Anderson (US). On the Development of Stream Meanders.

47. P. Novak (Czechoslovakia). Model Similarity and Training of Rivers with Large Channel Irregularities.

48. M. Anding and P. Pierce (US). Some Relations of Energy, Roughness, and Channel Geometry in the Lower Mississippi River.

49. Z. Thomas (Czechoslovakia). Velocity of Motion of Sand Dunes.

50. C. Ciray (England). On Secondary Currents.

51. Chao-lin Chiu (US). The Role of Secondary Currents in Hydraulics.

52. A. K. Ananyan (USSR). An Approximate Theory of Secondary Flows at the Bend of a River.

53. Y. Muramoto (Japan). Secondary Flows in Curved Stratified Rivers.

54. L. N. Chikwendu (Nigeria). Secondary Currents in the Curved Stratified Rivers.

55. J. Lebreton and G. Nicollet (France). Investigation of Secondary Currents Produced by a Submerged Screen and of Their Effect on a Movable River Bed.

56. A. Lucas and P. Stone (Australia). Secondary Currents in the Newcastle Harbour Siltation Investigation.

57. Ben Chie Yen (US). Some Aspects of Flow in Meandering Channels.

58. B. Rao and L. Seetharamiah (India). Development and Role of Secondary Currents in Alluvial Streams.

59. A. Tsuchiya and K. Ishizaki (Japan). The Mechanics of Dune Formation in Scoured-Bed Channels.

60. K. Suga (Japan). The Stable Profiles of the Curved Open Channel Beds.

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