Spelling suggestions: "subject:"reservoir sedimentation"" "subject:"eservoir sedimentation""
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Causes of blanket peat erosion in the Pennines : a palaeoenvironmental approachYeloff, Daniel January 2002 (has links)
No description available.
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Sedimentation, mercury contamination, and clay mineralogy of the Dorena Lake Watershed, Western Oregon /Ambers, Rebecca Kelly Robinson, January 2000 (has links)
Thesis (Ph. D.)--University of Oregon, 2000. / Typescript. Includes vita and abstract. Includes bibliographical references (leaves 169-178). Also available for download via the World Wide Web; free to University of Oregon users.
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Land use potimization [sic] and sediment yield model for Siran Watershed (Pakistan)Shah, Bashir Hussain. January 1985 (has links) (PDF)
Thesis (Ph. D. - Renewable Natural Resources)--University of Arizona, 1985. / Includes bibliographical references (leaves 249-252).
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Study of reservoir sediment amounts contributed to watershed erosionBeekman, David M. January 2001 (has links)
Thesis (M.S.)--Ohio University, August, 2001. / Title from PDF t.p.
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A study of sediment deposition in reservoirsMajaj, Nadeem Hana. January 1988 (has links)
Thesis (M.S.)--California State University, Long Beach, 1988. / Photocopy of typescript. Abstract preceding title page. Includes bibliographical references (leaves 99-101).
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Granger Lake Sedimentation and Watershed Conservation Implementation AssessmentMcAlister, Jason 2011 December 1900 (has links)
Sedimentation rates for many Texas reservoirs may be skewed by overstated estimates of design capacity and assumptions perpetuated through subsequent volumetric surveys. Multi-frequency reservoir surveys offer the means by which we may improve existing reservoir data and validate historic sedimentation rate estimates. To demonstrate application of this technology and value of its data derivatives, a multi-year, multi-frequency acoustic survey of Granger Lake, located in Williamson County, Texas was undertaken. Objectives of the study were to use hydro-acoustic survey techniques to verify assumptions of original reservoir capacity, examine the general accuracy of previously derived sedimentation rate, and document conservation implementation effectiveness. The intended benefit of these pre and post-watershed conservation implementation project surveys was to provide a temporal snapshot of sediment flux. Specifically, these data would be used as a tool to quantitatively estimate project success or non-success in annual sediment delivery reduction to the reservoir.
During the course of the Granger Lake Watershed Implementation project, Granger Lake lost on average 343 acre feet of water storage annually to watershed sediment contribution. Sediment profiling results indicate pre-impoundment design estimates were overstated, thus skewing subsequent sediment deliver estimates. Since the mid-1990's, an accelerating sedimentation trend is apparent. Conservation implementation is not plainly responsible for the decrease in sediment delivery, and in fact may be undetectable for the foreseeable future.
The study illustrates the value of examining previously established reservoir sedimentation estimates and assumptions of reservoir life based on design capacity estimates and routine volumetric surveys. Insights from this research highlight the importance of validating historic reservoir survey data and significance regarding its use in quantifying historic and future conservation effects, or other reservoir sustaining strategies.
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Sediment yield estimation from limited data sets : a Philippines case studyWhite, Susan Mary January 1992 (has links)
No description available.
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Dynamic interaction of iron chemistry in Mantua Reservoir and ferric staining in the secondary water system of Brigham City, Utah /Wallace, Robert D. January 2007 (has links) (PDF)
Thesis (M.S.)--Brigham Young University. Dept. of Civil and Environmental Engineering, 2007. / Includes bibliographical references (p. 41-43).
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Investigation of the iron oxidation kinetics in Mantua Reservoir /Lathen, Scott H., January 2007 (has links) (PDF)
Thesis (M.S.)--Brigham Young University. Dept. of Civil and Environmental Engineering, 2007. / Includes bibliographical references (p. 55-56).
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Coupled fully three-dimensional mathematical modelling of sediment deposition and erosion in reservoirsSawadogo, Ousmane 03 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: The investigation of reservoir sedimentation has become an important and valuable research topic in
engineering practice. Sediment deposition in reservoirs can affect
ood levels, drainage for agriculture
land, pumpstation and hydropower operation and navigation.
An extensive review of the technical literature pertaining to suspended sediment transports as well as
deposited sediment
ushing from reservoirs has shown that most studies on sediment are still based on
empirical formulas and experimental work, despite the availability of sophisticated computers. This is
because sediment transport and particularly sediment deposition and erosion are complex processes, that
involve the interaction of many physical factors which are not easily modelled numerically. In addition,
most of the existing three-dimensional numerical models are not coupled hydrodynamic and sediment
transport models. They first simulate the velocity field and water depth and then the concentration
and bed change are calculated. Furthermore, they are not fully three-dimensional models for using
layer-averaged approaches in conjunction with Saint-Venant equations.
The key objective of the present research was to develop a coupled fully three-dimensional (3D) numerical
model based on Navier-Stokes equations which includes both the sediment transport component and
hydrodynamic parameters. In this regard, a physical model was set up in a laboratory
ume in order
to investigate the bottom outlet sediment
ushing under pressure in a controlled environment. The
proposed coupled fully 3D numerical model was used to simulate the experimental tests. Results from
these simulations were in good agreement with the measurements. The geometric features of the
scour hole (temporal and spatial hole development) upstream of the bottom outlet were reasonably
well predicted compared to the experimental data. Furthermore, the velocity field upstream of the
bottom outlet was in good agreement with measurements. The proposed numerical model can be
considered reliable provided that the model is correctly set up to reflect the condition of a particular
case study. Finally, the coupled fully 3D numerical model for turbulent suspended sediment transport in
reservoirs was validated against a range of typical reservoir sediment transport and deposition laboratory
flume cases. The proposed suspended sediment transport model successfully predicted both sediment
deposition and entrainment processes and therefore, it can be used for turbulent suspended sediment
transport assessments in reservoirs. / AFRIKAANSE OPSOMMING: Die ondersoek van damtoeslikking het 'n belangrike navorsing onderwerp in ingenieurswese praktyk
geword. Sedimentdeponering in damme kan vloed vlakke, dreinering van landbo grond sowel as pompstasie
en hidrokrag werking en navigasie benvloed.
'n Omvattende ontleding van die tegniese literatuur met betrekking tot gesuspendeerde sedimentvervoer
asook die spoel van gedeponeerde sediment uit reservoirs het getoon dat die meeste studies oor sediment
steeds op empiriese formules en eksperimentele werk gebaseer is, ten spyte van die beskikbaarheid van
gesofistikeerde rekenaars. Dit is omdat sedimentvervoer en veral sedimentafsetting en -erosie komplekse
prosesse is, wat die interaksie van baie fisiese faktore behels en nie moeiteloos numeries gemodelleer kan
word nie. Daarbenewens, in die meeste van die bestaande drie -dimensionele numeriese modelle is die
hidrodinamika en sedimentvervoer modelle nie gekoppel nie. Die numeriese modelle simuleer eerstens die
snelheid veld en waterdiepte en dan word die sedimentkonsentrasie en bedverandering bereken. Verder
is die bestaande modelle nie ten volle driedimensioneel nie, en gebruik laag-gemiddelde benadering in
samewerking met Saint- Venant vergelykings.
Die hoofdoelwit van die huidige navorsing was om 'n gekoppelde volle drie -dimensionele (3D) numeriese
model gebaseer op Navier -Stokes-vergelykings wat beide die sediment vervoer komponent en hidrodinamiese
parameters insluit, te ontwikkel. In hierdie verband is 'n fisiese model opgestel in 'n laboratorium
kanaal om die bodem uitlaat spoel van sediment onder druk in 'n beheerde omgewing te ondersoek.
Die voorgestelde gekoppelde 3D numeriese model is gebruik om die eksperimentele toetse na te boots.
Resultate van hierdie simulasies het goed ooreengestem met die metings. Die geometriese eienskappe
van die erosie gat (tyd en ruimtelike gatontwikkeling) stroomop van die bodemuitlaat was redelik goed
voorspel vergeleke met die eksperimentele data. Verder is die snelheid veld stroomop van die bodem
uitlaat ook goed voorspel. Die voorgestelde numeriese model kan beskou word as betroubaar met die
wete dat die model korrek opgestel is om die toestand van 'n bepaalde gevallestudie te weerspiel. Ten
slotte, is n gekoppelde 3D numeriese model vir turbulente gesuspendeerde sediment vervoer in reservoirs
ontwikkel en getoets teen 'n reeks laboratorium kanaal eksperimente. Die voorgestelde gesuspendeerde
sediment vervoer model voorspel suksesvol beide die sediment afsetting- en erosieprosesse en daarom
kan dit gebruik word vir die simulasie van turbulente gesuspendeerde sediment vervoer in damme.
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