Difference between revisions of "Collapsible-Bag depth-integrating sampler"

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===External links===
 
===External links===
* PDF of sub-section 5.6.2.7 of the manual: [http://www.wldelft.nl/rnd/intro/fields/morphology/pdf/H5-6-2-7_Collapsible_bag_sampler.pdf]
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* [http://www.wldelft.nl/rnd/intro/fields/morphology/pdf/H5-6-2-7_Collapsible_bag_sampler.pdf Sub-section 5.6.2.7 of the manual: Collapsible-bag sampler(pdf)]
  
 
===Further reading===
 
===Further reading===

Revision as of 13:23, 5 December 2007

This article is a summary of sub-section 5.6.2.7 of the Manual Sediment Transport Measurements in Rivers, Estuaries and Coastal Seas [1]. This article describes the use of a Collapsible-Bag sampler to determine the depth-integrated suspended load of sediment.

Measuring principle

The Collapsible-Bag sampler is based on the principle that the static pressure acting on the outside surface of the flexible bag (devoid of air) creates at the nozzle exit a pressure equal to the hydrostatic pressure at the nozzle entrance. Using this method, samples can be collected throughout any depth.

The sampler consists of a wide-mouth, perforated, rigid plastic container enclosed in a cage-like metal frame. The head of the frame supports a plastic intake nozzle (6 or 13 um) and swings open to permit the plastic container to be removed. When the head is closed, the end of the nozzle extends slightly into the mouth of the container. Perforations in the container allows the air in the container to escape during submergence. For sampling, a collapsed flexible plastic bag is placed inside the rigid container. The neck of the flexible bag is stretched over the neck of the rigid container and this unit is placed into the sampler.

When the sampler is lowered into the flow, water enters the perforations in the rigid container, surrounds the collapsed bag and equalizes the hydrostatic pressure at the nozzle entrance. The velocity head forces water through the intake nozzle into the collapsed bag, which unfolds to conform to the rigid container. This sampling action eliminates any possibility for flow to rush in due to unequal pressures and insures that water-sediment mixture is collected at stream velocity regardless of velocity distribution and depth, provided that the sample container does not overfill and the vertical transit rate is smaller than 0.4 of the depth-averaged velocity. Nordin et al. (1983)[2] have used a large-volume (6 litres) bag sampler in combination with an Ott-type current meter in water depths up to 30 m. The rotation of the propeller was transmitted into a rate meter. This latter provided a direct read out of velocity. By lowering and raising the current meter over the depth, the instantaneous velocity profile can be recorded.

Taking samples

Figure 1: Transit rate curve

The constant vertical transit rate of the bag sampler should be fast enough so that the sample container is not completely filled, but not greater than 0.4 v (v= depth-averaged velocity). Nordin et al. (1983)[2] tried to keep the transit rate smaller than 0.2 v. The sample volumes that will be collected for a transit rate equal to 0.2 v are given in Figure 1 A. The mean velocity v can be estimated from the surface velocity. The time required to collect one litre of sample for various mean velocities and nozzle diameters is given in Figure 1B.

If the cross-channel distribution of sediment discharge is needed, each sample is processed separately. If the depth and velocity are fairly uniform across the section, it often is possible to use one nozzle diameter and transit rate at all verticals and the individual samples can be composited into a single discharge-weighted sample. For most purposes 10 to 15 depth-integrated samples equally spaced across the section are adequate. If the maximum and minimum surface velocities are observed when the cross-section is sounded initially, that information can be used with the data plotted in Figure 1B to select the transit rate. Usually, it is accurate enough to select a transit rate smaller than 0.2 v using the velocity v of the deepest en fastest vertical. Assuming that v does not vary more than a factor 2, the transit rate will not be greater than 0.4 v in the vertical with the lowest velocity.

The depth-averaged concentration can be determined as

c=G/V

in which: G= dry mass of sediment (mg), V= volume of water sample (l).

The depth-integrated suspended sediment transport (in kg/m/s) can be determined as:

S= G h/(F T)    or as    S=c u h= (G/V) u h

in which: G= dry mass of sediment (mg), V= volume of sediment sample, including pores (m3),h= depth of sampled zone (m), u= depth-averaged velocity (m/s), F= area of nozzle (m2), T= sampling period (s).

See also

Summaries of the manual

Other internal links

External links

Further reading

  • Christiansen, H.(1985) Suspended Sediment Measurements in Elbe Estuary at Hamburg using a Cux Sampler. Euromech 192, Neubiberg, Germany.
  • Stevens, H.H., Lutz, G.A. and Hubbel, D.W. (1980) Collapsible-Bag Suspended Sediment Sampler. Journal of Hydraulic Division, ASCE, Vol. 106, No. Hy4.

References

  1. Rijn, L. C. van (1986). Manual sediment transport measurements. Delft, The Netherlands: Delft Hydraulics Laboratory
  2. 2.0 2.1 Nordin, C.F., Cranston, C.C., Abel, M.B.(1983) New Technology for Measuring Water and Suspended Sediment Discharge of Large Rivers.
The main author of this article is Rijn, Leo van
Please note that others may also have edited the contents of this article.

Citation: Rijn, Leo van (2007): Collapsible-Bag depth-integrating sampler. Available from http://www.coastalwiki.org/wiki/Collapsible-Bag_depth-integrating_sampler [accessed on 31-10-2024]


The main author of this article is Roberti, Hans
Please note that others may also have edited the contents of this article.

Citation: Roberti, Hans (2007): Collapsible-Bag depth-integrating sampler. Available from http://www.coastalwiki.org/wiki/Collapsible-Bag_depth-integrating_sampler [accessed on 31-10-2024]