Engineering Commons^™

Low-Temperature Hot Corrosion Of Boilers In The Coal-Fired Power Plant, Artem Gavrilev

Graduate Theses, Dissertations, and Problem Reports

Hot corrosion of materials has remained a relevant topic since its introduction in the second half of the 20th century as gas turbine engines suffered severe corrosion during operation over seawater. Hot corrosion is observed in a multitude of high temperature components, such as gas turbines, power plants, refineries, fluidized bed combustion systems, pipelines, and industrial waste incinerators.

Hot corrosion experiments in the laboratory have been conducted under constant temperatures of interest, while in the actual working conditions of coal-fired power plants, boiler tubes are cooled down via water cooling from a relatively high fireside temperature, e.g., 1000°C. To investigate …

Microwave-Assisted Carbon Nanotube Growth From Methane On Surface Catalyst Exsolving Perovskite Oxide, Angela M. Deibel

Graduate Theses, Dissertations, and Problem Reports

The novel method of using a perovskite exsolution catalyst, strontium titanium nickel oxide (STNO), proved capable of simultaneously producing carbon nanotubes (CNTs) and CO_x-free hydrogen during methane decomposition under microwave irradiation. An optimization of common perovskite materials was conducted for microwave-responsiveness with the results reported in this study. Out of the materials screened, strontium titanium nickel oxide (STNO) was the best candidate to achieve an acceptable methane conversion rate as well as a decent responsiveness to microwave. STNO was further optimized through Ni content, reduction dwell time, and reduction temperature to produce the best methane conversion and CNT …

Modeling, Fabrication, And Characterization Of Rf-Based Passive Wireless Sensors Composed Of Refractory Semiconducting Ceramics For High Temperature Applications, Kavin Sivaneri Varadharajan Idhaiam

Graduate Theses, Dissertations, and Problem Reports

Real-time health monitoring of high temperature systems (>500^oC) in harsh environments is necessary to prevent catastrophic events caused by structural failures, varying pressure, and chemical reactions. Conventional solid-state temperature sensors such as resistance temperature detectors (RTDs) and thermocouples are restricted by their operating environments, sensor dimensions and often require external power sources for their operation. The current work presents the research and development of RF-based passive wireless sensing technology targeting high temperatures and harsh environmental conditions. Passive wireless devices are generally classified as near-field and far-field devices based on the interrogation distance. Near-field sensors are placed at …