My WebLink
|
Help
|
About
|
Sign Out
Home
Browse
Search
WSPC110
CWCB
>
Water Supply Protection
>
Backfile
>
20000-20849
>
WSPC110
Metadata
Thumbnails
Annotations
Entry Properties
Last modified
1/26/2010 4:15:49 PM
Creation date
4/22/2007 10:20:26 AM
Metadata
Fields
Template:
Water Supply Protection
File Number
8230.400.21.B.5.B
Description
CO River Lit - Div 4 Water Court - Steamboat RICD - Water Court Filing - 26-a-2 Disclosures-Reports
State
CO
Basin
Colorado Mainstem
Water Division
5
Date
12/22/2003
Author
Various
Title
26-a-2 Disclosure Reports and Exhibits 2003-2004 - RE-Steamboat RICD - Case Number 03-CW-86 - 12-22-03 through 05-19-04
Water Supply Pro - Doc Type
Report/Study
There are no annotations on this page.
Document management portal powered by Laserfiche WebLink 9 © 1998-2015
Laserfiche.
All rights reserved.
/
169
PDF
Print
Pages to print
Enter page numbers and/or page ranges separated by commas. For example, 1,3,5-12.
After downloading, print the document using a PDF reader (e.g. Adobe Reader).
Show annotations
View images
View plain text
<br />. <br /> <br />. <br /> <br />. <br /> <br />OD2773 <br /> <br /> <br />. Q Direction of Flow <br /> <br />......:..:;...:.,:;~ :~..... <br /> <br />... ~ .... ~_.....-:-: . <br /> <br />Figure 3. A section view of the apex oftheU-structure.. <br /> <br />Figure 3 shows a section view ofthe:apex of the arch. This Figure shows that the arch is <br />sunk into the riverbed such that the crest of the structure, which is the highest point on the <br />upstream side, is even with the existing riverbed. Setting the structure even with the existing <br />riverbed has two effects. First it ensures that the un constricted river level is no higher than the <br />existing river level and secondly it enSures that there are no dynamic fluid forces on the structure <br />due to current flow. Sinking the arch in the riverbed also supports the structure laterally and <br />prevents torsion on the structure. .. <br /> <br />A base rock, also shown in Figure 3, is sbown at the downstream end of the structure. <br />The base rock is slink into the cobble and is keyed into the rock that forms the structure in order <br />to reinforce the structure and to protect the structure from erosion caused by eddy currents. <br /> <br />These structures are designed such that the river is usable at a variety of water levels. <br />Figure 4 shows a profile view of the V-structure looking upstream. This view highlights the <br />versatile design ofthese structures. The low flow channel can be designed to provide deep <br />passage and a usable hydraulic feature during typical low flows. During the mid-range flows the <br />Jowflow channel and part of the high flow would be submerged. During run-off the high flow <br />channel would create a larger, more usable hydraulic Jeature (a hydraulic jump or wave train), <br />and at extreme flood the river will overflow the shoulders ofthe structure. The downstream side <br />of these shoulders are stepped to provide seating during normal flows and to prevent the <br />fom1ation of dangerous hydraulics during extreme flooding. <br /> <br />-8- <br />
The URL can be used to link to this page
Your browser does not support the video tag.