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Full-Text Articles in Engineering
Heat Transfer Modeling And Optimization Of A Carbonized Microvascular Solar Receiver, Taylor Brown
Heat Transfer Modeling And Optimization Of A Carbonized Microvascular Solar Receiver, Taylor Brown
Boise State University Theses and Dissertations
Concentrating solar power is an emerging renewable energy source. The technology can collect and store thermal energy from the sun over long durations, generating electricity as needed at a later time. Current CSP systems are limited to a maximum operational temperature due to constraints of the working fluid, which limits the maximum possible efficiency of the system. One proposed pathway forward is to utilize a gas phase for the working fluid in the system such as supercritical carbon dioxide.
A composite gas phase modular receiver is being developed by researchers at Boise State University and the University of Tulsa. The …
Thermoelectric System Modeling And Design, Buddhima Pasindu Gamarachchi
Thermoelectric System Modeling And Design, Buddhima Pasindu Gamarachchi
Boise State University Theses and Dissertations
Thermoelectric generators (TEGs) convert heat to electricity by way of the Seebeck effect. TEGs have no moving parts and are environmentally friendly and can be implemented with systems to recover waste heat. This work examines complete thermoelectric systems, which include the (TEG) and heat exchangers or heat sinks attached to the hot and cold sides of the TEG to maintain the required temperature difference across the TEG. A 1-D steady state model is developed to predict the performance of a TEG given the required temperatures and device dimensions. The model is first validated using a 3-D model and then is …
Design And Analysis Of A Low Temperature Co-Fired Ceramic Micro Combustor, Matthew H. Mccrink
Design And Analysis Of A Low Temperature Co-Fired Ceramic Micro Combustor, Matthew H. Mccrink
Boise State University Theses and Dissertations
This thesis details the design and construction of a Low Temperature Co-Fired Ceramic (LTCC) micro combustion system. The design of the combustor requires a detailed analysis of the flame’s operational properties and stability. To this end, an analytic model was created to address these concerns. These results were used in conjunction with a detailed numerical analysis to determine the stable operating range of the combustors. The combustion of gaseous fuels requires a device with a lower bound on the channel feature size. This lower limit for combustion corresponds to the minimum quenching distance of the specific fuel being used and …