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Dynamics of a cluster of pipes conveying fluid in a bounded axial flowBesançon, Paul January 1978 (has links)
No description available.
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Density stratified flow in porous mediaManoel, P. J. (Peter J.) January 1972 (has links) (PDF)
Presented first November 1971, and revised July, 1972
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Research of gravity foundationBarati, Paraham January 2010 (has links)
<p>The material consumption of the foundation of a WEC is a big part of the totalmaterial consumption of the entire power plant. To reduce these consumption, it isrequired to optimize the foundation. To find out how small the foundation could beconstructed and still be able to cope with the requirements, it is necessary to knowabout the various forces that affects the foundation. The focus in this thesis is on theforces acting on the buoy. The forces are calculated theoretical with experimentsconducted to reach conclusions about the size of the gravity foundation.Experiments will also be conducted to investigate experimentally whether there is anydifference between the suction force of sand and clay soil.Results from experiments with buoys show that the theoretical calculations arereasonably close with results from experiments. Conclusion of the differencesbetween theory and experiment is found that this may be due to the wave tank abilityto reproduce waves, and the angle between the buoy and the wave direction.Results from experiments of the suction force shows that there is no differencebetween sand and clay. The conclusion from this experiment is that the results applyonly to the clay that was investigated in this experiment and cannot be compared withother clay types with different properties.A discussion about the foundations is carried out where the conclusion is drawn thatthe foundations for the minimum mass to maintain equilibrium at 4 m wave height isapproximately 33 ton.</p>
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A choice of difference schemes for ideal compressible flow /Leer, Bram van. January 1970 (has links)
Thesis (Ph. D.)--Rijksuniversiteit te Leiden, 1970. / Includes bibliographical references (p. 82-83).
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Research of gravity foundationBarati, Paraham January 2010 (has links)
The material consumption of the foundation of a WEC is a big part of the totalmaterial consumption of the entire power plant. To reduce these consumption, it isrequired to optimize the foundation. To find out how small the foundation could beconstructed and still be able to cope with the requirements, it is necessary to knowabout the various forces that affects the foundation. The focus in this thesis is on theforces acting on the buoy. The forces are calculated theoretical with experimentsconducted to reach conclusions about the size of the gravity foundation.Experiments will also be conducted to investigate experimentally whether there is anydifference between the suction force of sand and clay soil.Results from experiments with buoys show that the theoretical calculations arereasonably close with results from experiments. Conclusion of the differencesbetween theory and experiment is found that this may be due to the wave tank abilityto reproduce waves, and the angle between the buoy and the wave direction.Results from experiments of the suction force shows that there is no differencebetween sand and clay. The conclusion from this experiment is that the results applyonly to the clay that was investigated in this experiment and cannot be compared withother clay types with different properties.A discussion about the foundations is carried out where the conclusion is drawn thatthe foundations for the minimum mass to maintain equilibrium at 4 m wave height isapproximately 33 ton.
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Seasonal analysis of abiotic factors impacting phytoplankton assemblages in Offatts Bayou, Galveston, TexasRoehrborn, Linda Rae 15 May 2009 (has links)
The aim of this investigation in Offatts Bayou was to quantify natural shifts in
distributions and abundances of algal groups and to examine spatio-temporal patterns of
abiotic and biotic characteristics in the water column over a one year period. To
accomplish this, hydrological and meteorological parameters were collected and
phytoplankton biomass, community composition and chlorophyll a data were examined
for significant relationships. Seasonal variations in water temperature, salinity,
dissolved oxygen concentrations and pH levels, as well as wind effects, zooplankton
grazing, light availability and hydrodynamic restriction were considered as the key
controlling factors in phytoplankton dynamics in Offatts Bayou.
Surface water samples and water column hydrological data were collected at
eleven stations in the Offatts Bayou embayment on a regular basis (2 to 4 times per
month), along with phytoplankton tows on a monthly basis. Spatial patterns of
phytoplankton abundance generally reflected the degree of circulation in Offatts Bayou
with higher abundances observed in the restricted areas and lower abundances in the
well mixed regions. Temporally, diatom blooms became more prominent during winter, spring and autumn, which were characterized by cooler temperatures, less light
availability, increased dissolved oxygen concentrations and reduced salinities than
observed in summer. The most dominant diatoms were Guinardia delicatula, Ditylum
brightwelli, Rhizosolenia setigera, Dactyliosolen fragillissimus and numerous
Chaetoceros species. During summer, the waters of Offatts Bayou were warmer and
more saline, which lead to the haptophyte, Corymbellus aureus, becoming the dominant
taxa, with highest standing crops at the circulation restricted stations in Lake Madeline.
While the results of this study support the importance of temperature, dissolved
oxygen and pH as the critical controlling factors (p < 0.05) of phytoplankton biomass
and diversity, it is clear that phytoplankton dynamics in Offatts Bayou must be viewed
within the broader context of additional parameters such as salinity, stratification and
wind effects. The progressively degrading conditions within Offatts Bayou emphasize
the significance of studying and understanding the interrelationships of factors and
mechanisms that influence phytoplankton dynamics. Long term monitoring of Offatts
Bayou is essential for tracking, recording and assessing various human impacts to
phytoplankton distribution, abundance, and productivity as well as impacts to higher
trophic levels such as fish and humans.
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Coastal Wave Generation and Wave Breaking over Terrain: Two Problems in Mesoscale Wave DynamicsQian, Tingting 2009 May 1900 (has links)
Two problems in mesoscale wave dynamics are addressed: (i) wave-turbulence
interaction in a breaking mountain wave and (ii) gravity wave generation associated
with coastal heating gradients.
The mean and turbulent structures in a breaking mountain wave are considered
using an ensemble of high-resolution (essentially LES) wave-breaking calculations. A
turbulent kinetic energy budget for the wave shows that the turbulence production
is almost entirely due to the mean shear. Most of the production is at the top of
the leeside shooting
ow, where the mean-
ow Richardson number is persistently
less than 0:25. Computation of the turbulent heat and momentum
uxes shows that
the dissipation of mean-
ow wave energy is due primarily to the momentum
uxes.
The resulting drag on the leeside shooting
ow leads to a loss of mean
ow Bernoulli
function as well as a cross-stream PV
ux. The dependence of both the resolved-scale
and subgrid turbulent
uxes on the grid spacings is examined by computing a series
of ensembles with varying grid spacings. The subgrid parameterization is shown to
produce an overestimate of the PV
ux at low grid resolution.
The generation of gravity waves by coastal heating gradients is explored using linear theory calculations and idealized numerical modeling. The linear theory for
ow
without terrain shows that the solution depends on two parameters: a nondimensional
coastal width L and a nondimensional wind speed U. For U 6= 0 the solution is
composed of three distinct wave branches. Two of these branches correspond to the
no-wind solution of Rotunno, except with Doppler shifting and dispersion. The third
branch exists only for U 6= 0 and is shown to be broadly similar to
ow past a steady
heat source or a topographic obstacle. The relative importance of this third branch
is determined largely by the parameter combination U=L.
The e ect of terrain is explored in the linear context using an idealized linear
model and associated diagnostic computations. These results are then extended to
the nonlinear problem using idealized nonlinear model runs.
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Dynamic of Capital Expenditure for Finance PlanYu, Li-Chu 26 August 2009 (has links)
none
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Insights on enzymes and polymers from molecular dynamics simulations applications to dihydrofolate reductase complexes and starburst dendrimers /Naylor, Adel Marie. Goddard, William A., January 1900 (has links)
Thesis (Ph. D.)--California Institute of Technology, 2010. UM #89-15,388. / Title from home page. Viewed 12/02/2009. Advisor names found in the Acknowledgements pages of the thesis. Includes bibliographical references.
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Electronic wavefunctions for small moleculesHunt, William James. Goddard, William A., January 1972 (has links)
Thesis (Ph. D.)--California Institute of Technology, 1972. UM #72-22,550. / Advisor names found in the Acknowledgements pages of the thesis. Title from home page. Viewed 01/15/2010. Includes bibliographical references.
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