INTRODUCTION THE BED, THE FLOW, AND THE LOAD BED LOAD Styles of Bed-Load Movement at Low Flow Intensities Effect of Shape Saltation in Water SUSPENSION IN A SHEAR FLOW: THE DIFFUSIONAL THEORY OF SUSPENSIONCHAPTER 10 MOVEMENT OF SEDIMENT BY WATER FLOWS INTRODUCTION 1 A simple flume experiment on sediment movement by a unidirectional current of water in a flume serves to introduce the material in this chapter. Place a layer of sediment in the flume, level it to have a planar surface, and establish a uniform flow at a certain depth and velocity. Gradually, in steps, increase the strength of the flow beyond the condition for incipient movement. The magnitude of the flow strength relative to what is required for incipient movement of the bed sediment is conventionally called the flow intensity, and is usually taken to be the ratio τo/τoc (or, what is the same, u*/u*c), where the subscript c denotes the threshold (“critical”) condition. 2 At first the particles move as bed load, by hopping, rolling, and/or sliding. Particle movement is neither continuous nor uniform over the bed: brief gusts or pulses of movement affect groups of particles locally, and seemingly randomly, on the bed. Particles move a short distance, stop, and then move again. Even when they are moving, they are generally not moving as fast as the fluid near the bed surface. 3 As the flow becomes stronger, some of the particles moving near the bed are lifted upward by upward-moving turbulent eddies and travel for more or less long distances downstream as suspended load. The stronger the flow and/or the finer the sediment, the greater is the concentration of suspended sediment, the higher it can travel in the flow, and the longer it moves downstream before returning to the bed. Of course, the particles are not really suspended in the way that a picture is suspended on the wall by a nail; they are continuously settling through the surrounding fluid, and eventually they return to the bed. If the sediment is fine and the flow is strong, however, the particles are likely to travel for the entire length of the flume. 4 If you introduce a small quantity of very fine clay-size sediment into the flow, you would find that it too travels in suspension, but the essential difference between this part of the suspended load and the coarser part you observed before is that even if you add large quantities of it to the flow, it would not be represented in the bed. Fine sediment of this kind is called wash load. Extremely fine particles, in the size range of small fractions of a micrometer, can be kept in effectively permanent suspension, because their mass is so small that they can be moved about by the random bombardments of the molecules constituting the fluid itself. These random motions are a manifestation of Brownian motion. 5 For flow intensities not much above threshold, it is fairly easy to observe the particle motions in the bed load, provided that you have clear water, good lighting, and sharp eyes (close-up slow-motion vision would be a big help), but as 285the flow intensity increases, the concentration of particles in motion as bed load increases, and it becomes difficult or impossible to observe the motions of individual particles. Unfortunately, no one yet seems to have devised a good way to see into the dense layer of moving bed-load particles at high flow intensities to study its characteristics. This important aspect of sediment transport remains contentious and inadequately studied. 6 To gain an appreciation of a rather different mode of sediment movement, you need to resort to a wind tunnel. It is not difficult to build one: all you need to do is construct a rectangular duct resting on the floor, leading from a flared entrance at the upwind end to a large empty chamber at the downwind end, with an exhaust fan in the side of the chamber to create a wind through the duct. A louver just downwind of the fan lets you adjust the wind velocity. Especially when the ratio of sediment density to fluid density is very large, as with quartz sand in a wind tunnel, sediment particles are entrained impulsively by the flow at middling to steep take-off angles and move downstream in long arching trajectories little affected by the fluid turbulence to make impact with the bed at low angles. This characteristic mode of movement, known as saltation, is especially important in the transport of sand by wind. Its manifestation in transport of particles that are not much denser than the transporting fluid, however, is much less striking or distinctive. THE BED, THE FLOW, AND THE LOAD 7 The aggregate of sediment particles being transported by a flow at a given time is called the load. At the very outset, it seems appropriate to define what is meant by the bed, the flow, and the bed load (Figure 10-1). (I am not sure that the following definitions, intuitive as they seem to me, would be approved by all specialists in sediment transport.) The bed comprises all of the particles that at a given time are motionless and in direct contact with the substrate, and the load comprises all of the particles that are in motion in a given flow, whether or not they are in contact with the bed. That leaves the less certain definition of the flow: all the material, fluid and solid, that at a given time are in motion above the bed. 8 The load can further be subdivided in two different ways. On the one hand, the load can be divided into bed-material load, which is that part of the load whose sizes are represented in the bed, and wash load, which is that part of the load whose sizes are not present in the bed in appreciable percentages. The wash load, which if present is always the finest fraction of the load, is carried through a reach of the flow without any exchange of sediment between the bed and the flow. On the other hand, the load can also be divided into bed load, which travels in direct contact with the bed or so close to the bed as not to be substantially affected by the fluid turbulence, and suspended load, which is maintained in temporary suspension above the bed by the action of upward-moving turbulent eddies. I hope that it is clear from these definitions that bed load is always bed-material load, and suspended load is likely to be partly bed-material load and partly wash load, although in particular cases it could be all wash load, or all bed-material load. Confused? Figure 10-2 may or