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Modeling of a high energy density combustion based aluminum and steam propulsion system.

机译：基于高能量密度燃烧的铝和蒸汽推进系统的建模。

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This thesis presents a thermodynamic analysis of a novel Rankine cycle aluminum/steam combustion power system being developed for use in Unmanned Underwater Vehicles (UUVs). The analysis is performed using a system modeling tool developed by the NASA Glenn Research Center called Numerical Propulsion System Solver (NPSS). Thermodynamic models of the individual components are created and linked together in NPSS, which then solves the system by enforcing mass and energy conservation. Design and off-design conditions are simulated and predicted performance is compared with predictions made by two other research groups. The simulations predict that this power system could provide at least five-fold increases in range and endurance for the US Navy's 'Sea Horse' UUV. A rudimentary sensitivity analysis is used to identify the factors which most strongly influence the performance of the design. Lastly, recommendations for future work and possible model improvements are discussed.

机译：本文提出了一种新型兰金循环铝/蒸汽燃烧动力系统的热力学分析，该系统正在开发用于无人水下航行器（UUV）。使用NASA格伦研究中心开发的系统建模工具进行分析，该工具称为数值推进系统求解器（NPSS）。在NPSS中创建各个组件的热力学模型并将其链接在一起，然后通过强制执行质量和节能来解决该系统。模拟设计和非设计条件，并将预测的性能与其他两个研究小组的预测进行比较。仿真预测，这种动力系统可以为美国海军的“海马” UUV提供至少五倍的航程和续航能力。初步的灵敏度分析用于确定最强烈影响设计性能的因素。最后，讨论了有关未来工作和可能的模型改进的建议。

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作者
Eagle, Walter Ethan.;
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作者单位

University of Maryland, College Park.;

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授予单位 University of Maryland, College Park.;
学科 Engineering Aerospace.;Engineering Marine and Ocean.
学位 M.S.
年度 2007
页码 118 p.
总页数 118
原文格式 PDF
正文语种 eng
中图分类航空、航天技术的研究与探索;海洋工程;
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3. Comments on: "Combustion of nano-sized aluminum particles in steam: Numerical modeling", by VB Storozhev and AN Yermakov [J] . Bergthorson Jeffrey M., Julien Philippe, Goroshin Samuel, Combustion and Flame . 2016,第Sepa期

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5. Synthesis and characterization of mechanically alloyed aluminum-based compounds as high energy density materials. [D] . Zhu, Xiaoying. 2006

机译：机械合金化的铝基化合物作为高能量密度材料的合成与表征。
6. Modeling and Implementation of TEG-Based Energy Harvesting System for Steam Sterilization Surveillance Sensor Node [O] . Mateusz Daniol, Lukas Boehler, Ryszard Sroka, 2020

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7. This article presents a new numerical model describing the behaviour of a thermally thick wood sample exposed to high solar heat flux (above 1 MW/m2). A preliminary study based on dimensionless numbers is used to classify the problem and support model building assumptions. Then, a model based on mass, momentum and energy balance equations is proposed. These equations are coupled with liquid-vapour drying model and pseudo species biomass degradation model. By comparing to a former experimental study, preliminary results have shown that these equations are not enough to accurately predict biomass behaviour under high solar heat flux. Indeed, a char layer acting as radiative shield forms on the sample exposed surface. In addition to this classical set of equations, it is mandatory to take into account radiation penetration into the medium. Furthermore, as biomass contains water, medium deformation consecutively to char steam gasification must also be implemented. Finally, with the addition of these two strategies, the model is able to properly capture the degradation of biomass when exposed to high radiative heat flux over a range of sample initial moisture content. Additional insights of biomass behaviour under high solar heat flux were also derived. Drying, pyrolysis and gasification fronts are present at the same time inside of the sample. The coexistence of these three thermochemical fronts leads to char gasification by the steam produced from drying of the sample, which it is the main phenomenon behind medium ablation. [O] . Pozzobon, Victor, Salvador, Sylvain, Bézian, Jean Jacques 2018

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8. Experimental, Modeling, and Sensitivity Analysis Studies of Gas-Phase ReactionMechanisms Important to the Combustion of High Energy Density Materials [R] . Dryer, F. L., Yetter, R. A. 1990

机译：气相反应机理的实验，建模和灵敏度分析研究对高能量密度材料的燃烧具有重要意义

Modeling of a high energy density combustion based aluminum and steam propulsion system.

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