Optical Surface Plasmons in Semiconductors

Mao, Xiaoou

22 August 2012

A theoretical treatment is presented of a plasmonic interaction at an interface between a semiconductor and a dielectric, as opposed to the more traditional configuration whereby a metal/dielectric interface is investigated. Our work is to show that structures using semiconductors instead of metal to excite surface plasmon can support not only terahertz frequencies plasmons but also optical frequency (around 10 to power of 15 Hz) plasmons. / Thesis

Surface Plasmons

Semiconductor

Optical Frequency

Enhancement of polyether biodegradation in activated sludge

Christopher, Lisa Joy

05 1900

No description available.

Surface active agents

Sewage Purification

A new method for modeling surface wave propagation in heterogeneous media

Kocaoglu, Argun H.

12 1900

No description available.

Surface waves

Elastic waves

Seismology

Rg wave dispersion tomography in northern Alabama

Kocaoglu, Argun H.

08 1900

No description available.

Tomography

Surface waves

Geology Alabama

Attenuation of the Lg wave in Alabama

Chen, Wei-Chieh David

08 1900

No description available.

Surface waves

Geology Alabama

Tomography

The effects of electrolyte solution composition on silica surface charge development

Craven, Colin M.

12 1900

No description available.

Surface chemistry

Electrolyte solutions

Silica

The characterization and manipulation of the internal pore structure of tetramethoxysilane sol-gels and polymer hybrid gels

Higginbotham, Catrena Pearl

12 1900

No description available.

Colloids

Polymer colloids

Surface chemistry

A micromachined pendulous oscillating gyroscopic accelerometer

Kaiser, Todd Jeffrey

05 1900

No description available.

Accelerometers

Micromachining

Surface mount technology

A Research on Production Optimization of Coupled Surface and Subsurface Model

Iemcholvilert, Sevaphol

16 December 2013

One of the main objectives in the Oil & Gas Industry is to constantly improve the reservoir management capabilities by using production optimization strategies that can positively impact the so-called net-present value (NPV) of a given project. In order to achieve this goal the industry is faced with the difficult task of maximizing hydrocarbon production and minimizing unwanted fluids, such as water, while sustaining or even enhancing the reservoir recovery factor by handling properly the fluids at surface facilities. A key element in this process is the understanding of the interactions between subsurface and subsurface dynamics in order to provide insightful production strategies which honor reservoir management surface facility constraints. The implementation of the ideal situation of fully coupling surface/subsurface has been hindered by the required computational efforts involved in the process. Consequently, various types of partially coupling that require less computational efforts are practically implemented. Due to importance of coupling surface and subsurface model on production optimization and taking the advantage of advancing computational performance, this research explores the concept of surface and subsurface model couplings and production optimization. The research aims at demonstrating the role of coupling of surface and subsurface model on production optimization under simple production constraint (i.e. production and injection pressure limit). The normal production prediction runs with various reservoir description (homogeneous-low permeability, homogeneous-high permeability, and heterogeneous permeability) and different fluid properties (dead-oil PVT and lived-oil PVT) were performed in order to understand the effect of coupling level, and coupling scheme with different reservoir descriptions and fluid properties on production and injection rate prediction. The result shows that for dead-oil PVT, the production rate from different coupling schemes in homogeneous and heterogeneous reservoir is less sensitive than lived-oil PVT cases. For lived-oil PVT, the production rate from different coupling schemes in homogeneous high permeability and heterogeneous permeability are more sensitive than homogeneous low permeability. The production optimization on water flooding under production and injection constraint cases is considered here also.

Coupled surface and subsurface model

Optimization

Experimental investigation on evaporation induced convection in water using laser based measurement techniques

Song, Xudong

Unknown Date

No description available.

Surface-tension-driven

Evaporation

Water