Sol-gel routes for surface/sheath structures on carbon fibers : exploratory experiments with silica

Long, Theresa A.

05 1900

No description available.

Carbon fibers

Silica

Transport processes in the combustion of carbon

Camacho, Tomas Felipe

08 1900

No description available.

Carbon

Combustion

Boundary layer

Characteristics of a packed distillation column : correlations of H. T. U. with operating variables for rectification of carbon tetrachloride-toluene mixtures

Carter, William Lloyd

05 1900

No description available.

Carbon tetrachloride

Toluene

Distillation

Measurement of thermal conductivity of PAN based carbon fiber

Moses, William Marshall

05 1900

No description available.

Carbon fibers

Heat Conduction

Model studies of the diffusion limitation of carbon monoxide (DLCO) with sequential closure

Durham, Ardis Henry

08 1900

No description available.

Carbon monoxide

Diffusion

Creep crack growth characterization of SA-106 C carbon steel

Gill, Yancy

05 1900

No description available.

Carbon steel

Materials Creep

Effect of 2,4,6-trinitrotoluene (TNT) on carbon fixation rates in elodea nutalli

Benton, Mona Kathryn

05 1900

No description available.

Trinitrotoluene

Groundwater Purification

Carbon

Methane conversion over supported nickel catalysts : influence of gold doping, support material and preparation method

Hopkin, Amy L.

January 2002

No description available.

665.776

Carbon deposition

Development of novel nanostructured electrodes for biological applications

Garrett, David John

January 2011

This thesis describes the development and testing of a range of electrodes designed to be able to measure electrical current produced by the respiration of bacteria in direct contact with the electrode surface. The electrodes are designed to directly wire into redox processes in the cytoskeleton of the bacteria so that electron transfer can be measured in real time without the need for solution based mediator molecules. The rate of electron transfer from the bacteria is enhanced by nanostructuring the surface of graphite electrodes with vertically aligned single and multiwalled carbon nanotubes (CNTs) and covalently coupling mediator molecules to the CNT tips. A selection of the prepared electrodes are tested with the non-electrogenic bacteria Proteus vulgaris and Bacillus subtilis to demonstrate the potential of the electrode designs to be used with a wide range of microbial species.

Electrochemistry

Carbon nanotube

biosensor

Looking for Permeability: Mass and Heat Flow Assessment Using High Resolution soil CO₂Flux Surveys within the Taupo Volcanic Zone, New Zealand

Bloomberg, Simon

January 2012

Soil CO2 flux (φCO₂) has increasingly become important as a global exploration and monitoring tool in geothermal and volcanic fields. As CO₂ is the second most abundant gas in magma-hydrothermal systems, its study is vital for the location or management of those systems. Often one of the only surface expressions is the diffuse gas flux streaming through the soil zone. This thesis reports the investigations into heat and mass at the Rotokawa geothermal field’s thermal area, and White Island volcano’s crater floor hydrothermal system. Surface measurements were taken at high spatial resolution across the fields in a large sampling campaign during the summers of 2010/2011 and 2011/2012. A large dataset was built up which allowed for greater accuracy during geospatial modelling. The models are 2d pixel plots of the soil gas flux and temperature and are used to estimate values of heat and mass flow for the respective magma-hydrothermal systems. Both field areas have a large anomalous diffuse gas flux through the soil zone and related conductive heat flow anomaly, which indicates relative permeability from the source to the surface in these areas. That the rising fluids from the deep source can be sampled at the surface simply is a powerful tool for the exploration and management of these systems. Rotokawa has a diffuse gas release of over 600 t d⁻¹ and an associated heat flow through soil of 37 MWt while White Island has a diffuse gas release of 116 t d⁻¹ and 19.5 MWt of heat flow through the soil. Translating these values to total heat and mass flow values: Rotokawa has a mass flow 125 kg s⁻¹ and a heat flow of 314 MWt and White Island’s crater floor has a mass flow of 100 kg s⁻¹ and a heat flow of 22 MWt. Fluid flow pathways are mapped from the surface and show arcuate and hot spot spatiality, controlled by fault related permeability and structure. soil gas and temperature surveying elucidates Shallow structures that otherwise may have been hidden from status quo surface mapping. The method used in this study is applicable to both known thermal areas and blind thermal areas by addressing not only the flux but also the nature of the soil gases. Further study of White Island has found more evidence for the existence of seawater infiltration of the crater magma-hydrothermal system.

carbon dioxide

hydrothermal