空间温度和水的摩尔浓度测量使用热和电致伸缩光在旋涡燃烧器在压力下的操作

IF 1.4 4区 工程技术 Q3 ENGINEERING, MECHANICAL Journal of Engineering for Gas Turbines and Power-transactions of The Asme Pub Date : 2023-10-21 DOI:10.1115/1.4063865
Lee Weller, Priyav Shah, Anthony Giles, Francesca De Domenico, Steven Morris, Benjamin A.O. Williams, Simone Hochgreb
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引用次数: 0

摘要

摘要将激光诱导光栅光谱技术应用于高压燃烧装置。利用热和电致伸缩LIGS信号获得了瞬时(亚μs)、空间分辨(5mm以内)的温度和水的摩尔分数测量值。温度高达1800~K,水的摩尔分数在0.01 ~ 0.12之间。开发了一种新的分析方法,从火焰刷区域内测量信号的频率中提取温度,其中混合物包含燃烧和未燃烧的气体。平均产品温度比标称等效比的绝热温度低8%,比未校正辐射损失的热电偶测量值高14%。这项工作代表了LIGS在高压湍流旋转火焰中的首次应用,为未来在其他现实世界中的应用开辟了潜力。描述了与该技术部署相关的挑战,以及克服这些困难的潜在措施。
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Spatial Temperature and Water Molar Concentration Measurements Using Thermal and Electrostrictive Ligs During Operation of a Swirl Burner at Pressure
Abstract Laser-Induced Grating Spectroscopy (LIGS) was applied in a high-pressure combustion facility. Instantaneous (sub-μs), spatially resolved (within 5 mm) measurements of temperature and molar fractions of water were obtained using thermal and electrostrictive LIGS signals. Temperatures up to 1800~K and water molar fractions between 0.01 and 0.12 were measured. A new analytic approach was developed to extract temperature from the frequencies of the measured signal within the flame brush region, where mixtures contain both burnt and unburnt gases. Mean product temperatures are shown to be 8% lower than the adiabatic temperatures for the nominal equivalence ratio, and 14% higher than measurements made with a thermocouple, uncorrected for radiation losses. This work represents the first application of LIGS to a high-pressure, turbulent swirling flame, opening up the potential for future uses in other real world applications. Challenges associated with the deployment of the technique are described, as are potential measures to overcome these difficulties.
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来源期刊
CiteScore
3.80
自引率
20.00%
发文量
292
审稿时长
2.0 months
期刊介绍: The ASME Journal of Engineering for Gas Turbines and Power publishes archival-quality papers in the areas of gas and steam turbine technology, nuclear engineering, internal combustion engines, and fossil power generation. It covers a broad spectrum of practical topics of interest to industry. Subject areas covered include: thermodynamics; fluid mechanics; heat transfer; and modeling; propulsion and power generation components and systems; combustion, fuels, and emissions; nuclear reactor systems and components; thermal hydraulics; heat exchangers; nuclear fuel technology and waste management; I. C. engines for marine, rail, and power generation; steam and hydro power generation; advanced cycles for fossil energy generation; pollution control and environmental effects.
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