Aerodynamic performance study of blended-wing-body aircraft under severe weather conditions

機構典藏 > College of Engineering > Graduate Institute & Department of Aerospace Engineering > Thesis > Item 987654321/52480

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Title:	Aerodynamic performance study of blended-wing-body aircraft under severe weather conditions
Other Titles:	翼胴合一飛機在惡劣天氣中之空氣動力特性研究
Authors:	宋柏璋;Song, Bo-chang
Contributors:	淡江大學航空太空工程學系碩士班宛同;Wan, Tung
Keywords:	翼身合一飛機;側風;大雨;二相流;空氣動力學;Blended-Wing-Body;Crosswind;Heavy Rain;Two Phase Flow;Aerodynamics
Date:	2010
Issue Date:	2010-09-23 17:50:43 (UTC+8)
Abstract:	飛機設計的好壞來自於安全和效率，由於資源的損耗和短缺，傳統飛機已不符合和現代的需求。隨著科技的進步，一種革命性的發展''翼身合一飛機''，擁有較好的升阻比和減低噪音，能夠減少對燃油的消耗和環境的污染。由於溫室效應的影響，極端惡劣天氣變得相當頻繁，對於飛機起飛降落會造成相當大的影響。在這篇論文主要考慮的天氣因素是側風和大雨。在開始運用CFD模擬側風和大雨對翼身合一飛機的影響之前，先驗證M6-wing確保我們的模擬是具有可信度的。側風主要會影響飛機橫向和航向是否穩定，如果滿足穩定條件，飛機經過本身自己的調整就會回到本身的位置，如果不穩定，則會造成偏轉、翻滾，會對飛機造成很重大的影響。這篇論文假設了10m/s、20m/s和30m/s的側風速度。大雨主要會影響飛機的升力係數和阻力係數。這篇論文運用了Fluent DPM的機制模擬了大雨的強度LWC=25g/m3 和LWC=39g/m3對翼身合一飛機的影響。本篇論文主要運用Pro/E建立翼身合一飛機外型，並運用Fluent模擬側風和大雨的影響。本論文希望對未來飛機設計，或飛行安全考量都更有助益。 The goal of aircraft design is to achieve safe and efficient flight. In the world of civilian air transport, efficient, economically attractive configurations are urgently needed. As for civilian commercial aircrafts, studies have shown remarkable performance improvements for the Blended Wing Body (BWB) over conventional subsonic transport. On the other hand, global warming has led to extreme weather around the world frequently, if aircraft taking-off and landing will unavoidably meet with the strong crosswind or/and heavy rain, then aircraft designer must put these severe werather influence into considerations in the conceptual design phase phase. One way to investigate the BWB airplane performance degradation is through CFD calculation. The detrimental crosswind effects to Blended Wing Bod aircraft longitudinal, lateral and directional stability situation will be presented in this study. The speed of crosswinds considered here are 10m/s, 20m/s and 30m/s. Comparing with Boeing 747-100, no matter BWB is static stable or not, its stability derivative values under crosswind are always smaller than Boeing 747-100, representing the intrinsic nature of BWB static unstable tendency. Also, the heavy rain influence of different rain rates is that the lift coefficient is decreased and drag coefficient is increased at all different angle of attack spectrum. Comparing the different rain rates, liquid water content 39 g/m3 is more influential than 25 g/m3, with maximum reduction of lift coefficient is at angle of attack 0 degree and maximum increase of drag coefficient is at angle of attack 6 degree. In this study, Fluent is used as a simulation tool, the structure grid is chosen and generated by Gambit, and the standard M6 wing is first validated to ensure this simulation process is correct. This study hope to recognize and comprehend the basic aerodynamic performance for Blended Wind Body aircraft under severe weather situation, and the information gained here will be helpful for future transport aircraft designers.
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