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APPLICATION OF HYBRID AERO-ENGINE MODEL FOR INTEGRATED FLIGHT/PROPULSION OPTIMAL CONTROL 被引量:4
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作者 王健康 张海波 +1 位作者 孙健国 李永进 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI 2012年第1期16-24,共9页
The real-time capability of integrated flight/propulsion optimal control (IFPOC) is studied. An appli- cation is proposed for IFPOC by combining the onboard hybrid aero-engine model with sequential quadratic pro- gr... The real-time capability of integrated flight/propulsion optimal control (IFPOC) is studied. An appli- cation is proposed for IFPOC by combining the onboard hybrid aero-engine model with sequential quadratic pro- gramming (SQP). Firstly, a steady-state hybrid aero-engine model is designed in the whole flight envelope with a dramatic enhancement of real-time capability. Secondly, the aero-engine performance seeking control including the maximum thrust mode and the minimum fuel-consumption mode is performed by SQP. Finally, digital simu- lations for cruise and accelerating flight are carried out. Results show that the proposed method improves real- time capability considerably with satisfactory effectiveness of optimization. 展开更多
关键词 integrated flight/propulsion optimal control AERO-ENGINE hybrid model performance seeking con- trol sequential quadratic programming
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THE EIGENVALUE SENSITIVITY ANALYSIS AND DESIGN FOR INTEGRATED FLIGHT/PROPULSION CONTROL SYSTEM
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作者 Shen Gongzhang, Chen Zongji and Peng KemaoBeijing University of Aeronautics and Astronautics 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 1990年第4期277-284,共8页
In this paper, sensitivity approaches are taken to analyze and design an integrated flight propulsion control system where the interaction between subsystems direitly affects the stability property and handling perfor... In this paper, sensitivity approaches are taken to analyze and design an integrated flight propulsion control system where the interaction between subsystems direitly affects the stability property and handling performances of the aircraft. The eigenvalue sen sitivity approach is employed to study the effect of coupling parameters on system stability and gain sensitivity approach is used to direct the reduced states feedback suboptimal control system design. Simulation results show that the integrated flight propulsion control system designed by sensitivity approaches is of good performance. 展开更多
关键词 THE EIGENVALUE SENSITIVITY ANALYSIS AND DESIGN FOR integrATED FLIGHT/propulsion CONTROL SYSTEM SIMULATION
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Experimental study on integral axial squeeze film damper to suppress longitudinal vibration of propulsion shafting
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作者 Fan Wenqiang He Lidong +3 位作者 Jia Xingyun Yan Wei Zhu Gang Wang Jian 《High Technology Letters》 EI CAS 2021年第1期76-85,共10页
This paper aims at investigating the effectiveness of squeeze oil film in suppressing the longitudinal vibration of propulsion shaft systems through a novel integral axial squeeze film damper(IASFD).After designing th... This paper aims at investigating the effectiveness of squeeze oil film in suppressing the longitudinal vibration of propulsion shaft systems through a novel integral axial squeeze film damper(IASFD).After designing the IASFD,a propulsion shafting test rig for the longitudinal vibration control is built.Longitudinal vibration control experiments of the propulsion shafting are carried out under different magnitude and frequency of the excitation force.The results show that both IASFD elastic support and IASFD elastic damping support have excellent vibration attenuation characteristics,and can effectively suppress the longitudinal vibration of the shaft system in a wide frequency range.However,IASFD elastic damping support has a more significant vibration reduction effect than the other supports,and increasing the damping of the system has obvious effect on reducing the shafting vibration.For an excitation force of 45 N,the maximum reduction of the vibration amplitude is 89.16%.Also,the vibration generated by the resonance phenomenon is also significantly reduced. 展开更多
关键词 integral axial squeeze film damper(IASFD) propulsion shafting longitudinal vibration vibration damping
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Theoretical fundamentals of airframe/ propulsion integration for high-speed aircraft
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作者 A.A.Gubanov 《Advances in Aerodynamics》 2019年第1期226-238,共13页
Fundamental features of aerodynamic interference and integration of airframes and air-breathing jet engines for high-speed flight vehicles are studied within the framework of supersonic small perturbation theory.Both ... Fundamental features of aerodynamic interference and integration of airframes and air-breathing jet engines for high-speed flight vehicles are studied within the framework of supersonic small perturbation theory.Both the influence of airframe components on air intakes performance and influence of intakes on vehicle external aerodynamics are under consideration.Analytical relations and specific examples show that significant favorable interference between airframes and air intakes can be realized by using preliminary compression of the flow in front of intakes at flight Mach numbers exceeding approximately 3. 展开更多
关键词 Aircraft aerodynamics Supersonic flight vehicles Aerodynamic configurations airframe/propulsion integration Analytical studies CFD Wind-tunnel tests
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Study on High Power Hall Electric Propulsion Technology 被引量:3
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作者 HANG Guanrong ZHAO Zhen +7 位作者 YU Shuilin QIAO Caixia LIU Jia HUANG Hao TIAN Leichao LI Lin LI Wenshuai KANG Xiaolu 《Aerospace China》 2020年第2期31-38,共8页
High power Hall electric propulsion technology is a very competitive electric propulsion technology for future large space missions such as large GEO satellites,manned space programs,deep space explorations,cargo ship... High power Hall electric propulsion technology is a very competitive electric propulsion technology for future large space missions such as large GEO satellites,manned space programs,deep space explorations,cargo ships,space tugs.Based on the experience of more than 20 years in research and development of Hall electric propulsion,the Shanghai Institute of Space Propulsion(SISP)has developed 3 high power Hall thrusters,i.e.,the 10 k W class HET-500,20 k W class HET-1000,and 50 k W class HET-3000.This paper presents the development status of the high power(≥10 k W)Hall electric propulsion at SISP,including tests of 3 high power Hall thrusters in the power range from 10 k W to 50 k W,the qualification of a single string of a 10 k W Hall electric propulsion system,and the study of a cluster of two 1.35 k W HET-80 Hall thrusters to understand the technical issues related to multi-thruster high power electric propulsion systems. 展开更多
关键词 high power Hall electric propulsion Hall thruster single string system integration thruster cluster
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Novel Ship Propulsion System
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作者 JI Yulong SUN Yuqing ZHANG Hongpeng ZHANG Yindong CHEN Haiquan 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2009年第2期198-206,共9页
As the development tends towards high-speed, large-scale and high-power, power of the ship main engine becomes larger and larger. This make the engine design and cabin arrangement become more and more difficult. Ship ... As the development tends towards high-speed, large-scale and high-power, power of the ship main engine becomes larger and larger. This make the engine design and cabin arrangement become more and more difficult. Ship maneuverability becomes bad. A new ship propulsion system, integrated hydraulic propulsion (IHP), is put forward to meet the development of modem ship. Principle of IHP system is discussed. Working condition matching characteristic of IHP ship is studied based on its matching characteristic charts. According to their propulsion principle, dynamic mathematic models of IHP ship and direct propulsion (DP) ship are developed. These two models are verified by test sailing and test stand data. Based on the software Matlab/Simulink, comparison research between IHP ship and DP ship is conducted. The results show that cabin arrangement of IHP ship is very flexible, working condition matching characteristic of IHP ship is good, the ratio of power to weight of IHP ship is larger than DP ship, and maneuverability is excellent. IHP system is suitable for engineering ship, superpower ship and warship, etc. 展开更多
关键词 SHIP integrated hydraulic propulsion (IHP) ship propulsion system modeling and simulation working condition matching characteristic
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一种组合动力飞行器模态转换过程轨迹优化与控制方案
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作者 刘凯 张永亮 聂聆聪 《宇航学报》 EI CAS CSCD 北大核心 2024年第3期443-451,共9页
为应对组合动力飞行器涡轮/冲压发动机模态转换过程中容易出现的推力陷阱问题,开展了组合动力飞行器模态转换阶段飞行/推进一体化保护控制研究。该研究利用组合动力爬升段飞行轨迹优化方法,解决模态转换过程中组合发动机总推力无法满足... 为应对组合动力飞行器涡轮/冲压发动机模态转换过程中容易出现的推力陷阱问题,开展了组合动力飞行器模态转换阶段飞行/推进一体化保护控制研究。该研究利用组合动力爬升段飞行轨迹优化方法,解决模态转换过程中组合发动机总推力无法满足平飞加速需求的推力陷阱问题。结合轨迹线性化控制方法,完成了宽速域飞行器/发动机一体化轨迹跟踪控制设计,利用迎角、油门等变量的协同调节实现轨迹跟踪控制。仿真结果表明,轨迹优化策略能够在一定程度上克服模态转换过程中的推力不足问题,一体化轨迹线性化控制方法可以有效实现爬升轨迹跟踪,避免模态转换过程对组合动力飞行器飞行任务造成的不利影响。 展开更多
关键词 宽速域飞行器 涡轮/冲压发动机 飞行/推进一体化控制 轨迹优化 轨迹跟踪控制
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飞翼无人机外形与进排气几何一体化参数化建模
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作者 方欣瑞 余雄庆 《航空工程进展》 CSCD 2024年第1期30-37,共8页
飞翼布局是无人作战飞机的优先布局方案,其特点是机体与发动机进排气系统高度融合。针对飞翼式无人作战飞机概念方案快速几何建模需求,提出一种飞翼机体外形和进排气几何外形的一体化参数化建模方法。基于类函数/形函数方法,建立飞翼机... 飞翼布局是无人作战飞机的优先布局方案,其特点是机体与发动机进排气系统高度融合。针对飞翼式无人作战飞机概念方案快速几何建模需求,提出一种飞翼机体外形和进排气几何外形的一体化参数化建模方法。基于类函数/形函数方法,建立飞翼机体和进排气几何外形的参数化数学模型;确定关联的外形参数和关联控制规则,实现飞翼外形参数与进排气几何外形的匹配;将所建立的模型与CATIA二次开发方法相结合,实现飞翼式无人机概念方案三维几何模型的自动生成。结果表明:针对不同的进排气方案,本文方法能自动调节飞翼外形,匹配进排气系统的几何外形,有效地提高了飞翼式无人作战飞机概念设计的效率。 展开更多
关键词 飞翼 概念设计 参数化建模 机体和推进系统一体化 无人机
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论教育、科技、人才一体推进的价值哲学基础
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作者 谢霄男 《特区经济》 2024年第6期17-20,共4页
教育、科技、人才三个基本社会事项,在中国式现代化的推进与拓展中发挥着重要作用。教育、科技、人才一体推进,是现代化建设的一种全新认识向度。教育、科技、人才一体推进的价值定位,体现了与“战略部署”相统一的价值情怀、凸显了与... 教育、科技、人才三个基本社会事项,在中国式现代化的推进与拓展中发挥着重要作用。教育、科技、人才一体推进,是现代化建设的一种全新认识向度。教育、科技、人才一体推进的价值定位,体现了与“战略部署”相统一的价值情怀、凸显了与“高质量发展”相适应的价值理念、彰显了与“高品质生活”相衔接的价值诉求。教育、科技、人才一体推进在不同的层面上有着不同的价值目标,国家、政党以及个人层面的价值目标,分别是建成社会主义现代化强国、建成坚强有力的马克思主义执政党以及满足人民对高品质生活的期待。“创新”“协同”“党的领导”是认识教育、科技、人才一体推进价值实现的三个关键点。“创新”作为实现三者良性互动的最大公约数、“协同”作为三者一体推进的重要手段,在党的坚强有力领导下,有助于凝聚“最大公约数”、绘就“最大同心圆”。 展开更多
关键词 中国式现代化 教育科技人才 一体推进 价值哲学
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Geometrically compatible integrated design method for conformal rotor and nacelle of distributed propulsion tilt-wing UAV
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作者 Cheng HE Gang CHEN +2 位作者 Xue SUN Shuangfei LI Yang LI 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2023年第10期229-245,共17页
The inner rotors of distributed propulsion tilt-wing Unmanned Aerial Vehicles(UAVs)are often folded in the cruising state and deployed in vertical take-off and landing to cope with the huge difference in thrust requir... The inner rotors of distributed propulsion tilt-wing Unmanned Aerial Vehicles(UAVs)are often folded in the cruising state and deployed in vertical take-off and landing to cope with the huge difference in thrust requirements.However,the blades of the conventional rotor have poor conformality with the nacelle profile,which will greatly increase the drag of the UAV after folding.This paper proposes an integrated method for the design of rotor and nacelle considering geometric compatibility to reduce the drag of the folded rotor and nacelle,so as to further improve the aerodynamic efficiency in cruise while ensuring the rotor efficiency in the vertical flight mode.A geometric mapping model based on nacelle design parameters and rotor design parameters is established,and a parametric model and aerodynamic optimization model of the outer arc airfoil family are developed.In addition,a rotor performance analysis model and a neural network response surface model for nacelle drag prediction that meet the requirements of confidence level are established.Based on the oblique inflow blade element momentum theory method,numerical simulation method,and genetic algorithm,an integrated optimization framework of the design of the conformal rotor and nacelle is built.Then,a geometrically compatible integrated optimization for the rotor and nacelle is carried out with the objective of maximizing energy efficiency in the full mission profile.Finally,a conformal rotor and nacelle design solution is obtained,which satisfies geometric compatibility and thrust constraints while providing high thrust efficiency and low cruising drag.A comparison of the results of the integrated design and the conventional rotor optimization design shows that the drag of the conventional rotor is 3.45 times that of the conformal integrated design in the cruising state,which proves the effectiveness and necessity of the proposed method. 展开更多
关键词 Distributed propulsion Geometric compatibility integrated design NACELLE ROTOR Tilt-wing UAV
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船舶综合电力推进系统远洋保障经验探讨
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作者 杜虎 刘欣 张海波 《船电技术》 2024年第7期62-64,共3页
针对中压交流综合电力推进系统舰船远洋航渡装备保障工作,本文通过航行前备件筹措、进坞检查、装备预防性检修、增加制冷设备等准备工作;航渡中开展定期装备轮换使用、落实装备监测诊断、定期装备检修等具体举措;制定了主用装备应急处... 针对中压交流综合电力推进系统舰船远洋航渡装备保障工作,本文通过航行前备件筹措、进坞检查、装备预防性检修、增加制冷设备等准备工作;航渡中开展定期装备轮换使用、落实装备监测诊断、定期装备检修等具体举措;制定了主用装备应急处置等方案预案,确保了舰船横跨赤道海域长时间航行装备安全,为后续舰船积累了一定的经验。 展开更多
关键词 综合电力推进系统 装备保障 舰船
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计及进排气效应翼身融合布局机体—动力装置气动干扰研究
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作者 朱海涛 兰子奇 李岩 《航空科学技术》 2024年第2期14-22,共9页
高气动效率是翼身融合布局获得竞争优势的关键因素。为有效抑制动力装置对该布局气动效率的不利干扰,需对适用于翼身融合布局的动力装置布置形式进行深入研究。本文采用计算流体力学(CFD)技术和可计及进排气影响的动力短舱模型,对某翼... 高气动效率是翼身融合布局获得竞争优势的关键因素。为有效抑制动力装置对该布局气动效率的不利干扰,需对适用于翼身融合布局的动力装置布置形式进行深入研究。本文采用计算流体力学(CFD)技术和可计及进排气影响的动力短舱模型,对某翼身融合—背撑发动机构型进行了精细内、外流耦合数值模拟,研究了巡航点附近动力装置和翼身融合机体之间的气动干扰特征。研究结果表明,相对于孤立翼身融合体构型,全机构型的翼身融合体部件升力系数大幅降低,阻力显著增大,短舱溢流在机身上形成的高压区是升力系数降低的主要原因;转速增大,发动机对机身边界层抽吸效应增强,翼身融合体部件升力系数降低量明显减小;在低转速状态,短舱无发动机喷流部件的唇口吸力效应较强,转速增大至接近全转速时,吸力效应被抵消,该部件产生阻力。 展开更多
关键词 翼身融合布局 动力装置布置 背撑发动机 飞机—发动机匹配性设计 TPS短舱 内/外流耦合 气动干扰
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Numerical study of attack angle characteristics for integrated hypersonic vehicle 被引量:2
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作者 黄伟 王振国 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 2009年第6期779-786,共8页
The two-dimensional coupled implicit Navier-Stokes equations and standard k-ε viscous models are used to simulate the angle of attack characteristics of an inte- grated hypersonic vehicle with a hark head configurati... The two-dimensional coupled implicit Navier-Stokes equations and standard k-ε viscous models are used to simulate the angle of attack characteristics of an inte- grated hypersonic vehicle with a hark head configuration under three kinds of working conditions: inlet cut-off, engine through-flow, and engine ignition. Influence of each com- ponent on aero-propulsive performance of the vehicle is discussed. It is concluded that the longitudinal static stability of the vehicle is good, and there is enough lift-to-drag ratio to satisfy the flying requirement of the vehicle. At the same time, it is important to change configurations of engine and upper surface of airframe to improve aero-propulsive ~erformance of the vehicle. 展开更多
关键词 integrated hypersonic vehicle properties of attack angle component anal-ysis computer simulation hark head configuration aero-propulsive performance
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Nacelle-airframe integration design method for blended-wing-body transport with podded engines
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作者 Zhenqing XIN Zhenli CHEN +4 位作者 Wenting GU Gang WANG Zhaoguang TAN Dong LI Binqian ZHANG 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2019年第8期1860-1868,共9页
Strong shock waves and flow separation often occur during the integration of nacelle and airframe for blended-wing-bodies with podded engines. To address this problem, this paper presents an integration method with nu... Strong shock waves and flow separation often occur during the integration of nacelle and airframe for blended-wing-bodies with podded engines. To address this problem, this paper presents an integration method with numerical simulations. The philosophy of channeling flow and avoiding the throat effect on the nacelle and airframe is established based on the analysis of flow interference in the initial configuration. A parametric integration design method is proposed from twodimensional plane to three-dimensional space with control mechanisms and selection principles of the key parameters determined by their influences. Results show that strong shock waves and flow separation can be successfully eliminated under the influence of both the reshaped channel and decelerated inflow below the nacelle. Supersonic regions around the nacelle are effectively reduced, concentrating mainly on the lip position. Thus, a significant cruise drag reduction(8.7%) is achieved though the pressure drag of the nacelle increases. 展开更多
关键词 Blended-wing-body COMPUTATIONAL FLUID dynamics Drag reduction Flow INTERFERENCE Nacelle-airframe integration
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产教融合背景下“疲劳与断裂”教学改革探索
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作者 杨晓光 李少林 +1 位作者 齐红宇 石多奇 《教育教学论坛》 2023年第14期69-72,共4页
通过对接航空发动机强度设计的行业需求,虚实结合、产教融合,提出了北京航空航天大学研究生课程“疲劳与断裂”的教学改革思路和方法。该措施进一步加深了学生对“疲劳与断裂”课程理论知识的理解,培养了学生理论与实践相结合的能力,特... 通过对接航空发动机强度设计的行业需求,虚实结合、产教融合,提出了北京航空航天大学研究生课程“疲劳与断裂”的教学改革思路和方法。该措施进一步加深了学生对“疲劳与断裂”课程理论知识的理解,培养了学生理论与实践相结合的能力,特别是解决工程实际问题的能力,从而为实现“双一流”专业建设目标提供助力。同时,提出的产教融合培养模式与实践范式具有较强的扩展性,因此可以推广至“断裂力学”“蠕变力学”等课程的教学中。 展开更多
关键词 航空宇航推进理论与工程专业 疲劳与断裂 产教融合 实践能力
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螺旋桨气动参数与飞机综合设计技术 被引量:1
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作者 许正宇 汤斯佳 +2 位作者 何淼 昝丙合 曹德松 《空气动力学学报》 CSCD 北大核心 2023年第10期88-99,I0002,共13页
螺旋桨推进具备较高的推进效率和广泛的通用性。由于桨盘面积大、滑流范围广,螺旋桨与载机间的空气动力耦合关系更加紧密,需要将螺旋桨与飞机进行综合设计,迭代获取优化设计方案,从而最大化保证飞机的高性能和经济性。本文首先介绍了飞... 螺旋桨推进具备较高的推进效率和广泛的通用性。由于桨盘面积大、滑流范围广,螺旋桨与载机间的空气动力耦合关系更加紧密,需要将螺旋桨与飞机进行综合设计,迭代获取优化设计方案,从而最大化保证飞机的高性能和经济性。本文首先介绍了飞机总体设计对螺旋桨气动设计参数的影响,以及螺旋桨多目标优化综合设计的手段;然后,简述了螺旋桨布局选型对飞机总体设计的影响,介绍了共轴对转螺旋桨设计和分布式推进螺旋桨设计两种新形态的螺旋桨设计构型;最后,讨论了螺旋桨设计手段的发展,以及CFD方法在螺旋桨-飞机综合设计中的应用。本文可为螺旋桨飞机的相关总体设计和气动优化提供参考。 展开更多
关键词 螺旋桨 气动外形 滑流影响 分布式推进 综合设计
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涡轮基变循环组合动力控制技术发展分析 被引量:1
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作者 李凌蔚 吴宋伟 +1 位作者 张天宏 嵇润民 《推进技术》 EI CAS CSCD 北大核心 2023年第11期16-26,共11页
基于现有文献梳理分析涡轮基变循环组合发动机控制技术的发展现状。介绍了涡轮基变循环组合发动机的发展历史和结构特点,提炼出其控制系统设计的关键技术;分别围绕飞/推一体化综合建模技术、模态切换控制技术以及飞/推一体化协同控制技... 基于现有文献梳理分析涡轮基变循环组合发动机控制技术的发展现状。介绍了涡轮基变循环组合发动机的发展历史和结构特点,提炼出其控制系统设计的关键技术;分别围绕飞/推一体化综合建模技术、模态切换控制技术以及飞/推一体化协同控制技术三个关键技术问题进行文献分析;基于国内空天动力需求及研究现状,提出对涡轮基变循环组合发动机控制技术的未来发展思考。 展开更多
关键词 空天飞行器 涡轮基变循环组合发动机 控制技术 飞/推一体化 模态切换 综述
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无轴轮缘推进器流热耦合研究
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作者 白逢辉 陈进华 +3 位作者 徐姚 张驰 龚姚腾 逄启寿 《船舶工程》 CSCD 北大核心 2023年第9期61-69,78,共10页
无轴轮缘推进器将永磁电机与螺旋桨集成一体,螺旋桨旋转时对电机电磁损耗与流场换热特性产生影响,进而改变各部分的温度分布。采用有限元法(FEM)计算推进电机的电磁损耗,采用有限体积法(FVM)建立流体场和温度场仿真模型,对推进器的电磁-... 无轴轮缘推进器将永磁电机与螺旋桨集成一体,螺旋桨旋转时对电机电磁损耗与流场换热特性产生影响,进而改变各部分的温度分布。采用有限元法(FEM)计算推进电机的电磁损耗,采用有限体积法(FVM)建立流体场和温度场仿真模型,对推进器的电磁-流-热耦合问题进行仿真分析。通过对比仿真和试验结果,验证了流热耦合仿真方法的有效性。在此基础上,推导了螺旋桨转速与集成电机的损耗关系,并利用仿真模型分析了在不同进速系数、不同转速、不同间隙下推进器电磁损耗及流体场对推进器散热的耦合影响。结果表明,外域水流对推进器的温升影响较小,当间隙流速达到一定程度时散热减缓;推进器螺旋桨转速与集成电机电磁损耗存在幂次方关系;推进器主要靠间隙流体的流动带走热量,间隙大小会影响推进器散热,应合理选择推进器间隙尺寸。 展开更多
关键词 集成电机 无轴轮缘推进 损耗计算 流热耦合
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高效多模式混合推进垂起无人机动力系统研究 被引量:1
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作者 郑育行 张启悦 +2 位作者 齐元 唐庆如 房诗灵 《内燃机与配件》 2023年第14期9-12,共4页
针对现有商用工业级垂起无人机在面向新一代无人业务时的长垂直机动时间的研制需求,设计了一种起飞重量约20kg级的垂起无人机高效多模式混合推进动力系统,该系统以发动机、太阳能以及锂电池作为动力源,详细介绍了动力系统的开发方法及... 针对现有商用工业级垂起无人机在面向新一代无人业务时的长垂直机动时间的研制需求,设计了一种起飞重量约20kg级的垂起无人机高效多模式混合推进动力系统,该系统以发动机、太阳能以及锂电池作为动力源,详细介绍了动力系统的开发方法及软件测控方式,通过一体化验证试验方法对动力系统进行了地面台架及试飞平台验证。试验结果表明,设计的动力系统能够满足中型商用垂起无人机功率及任务需求,能够提升传统垂起无人机垂直机动时间,具有较好的应用前景。 展开更多
关键词 垂起无人机 高效多模式 混合推进垂起无人机动力系统 一体化验证试验方法 垂直机动时间
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无人机动力系统综合控制研究 被引量:3
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作者 车海威 张成成 赵树言 《现代电子技术》 2023年第6期111-117,共7页
动力系统是无人机安全、可靠飞行的动力保障。文中以某型航空涡轮增压活塞发动机为动力的无人机为例,在无人机飞行剖面内对动力系统进行综合控制。采取特征参数闭环控制、动力系统状态信息实时采集并进行目标趋势分析与故障诊断、执行... 动力系统是无人机安全、可靠飞行的动力保障。文中以某型航空涡轮增压活塞发动机为动力的无人机为例,在无人机飞行剖面内对动力系统进行综合控制。采取特征参数闭环控制、动力系统状态信息实时采集并进行目标趋势分析与故障诊断、执行机构集中管理与控制等手段,合理地调整动力系统工作状态,以延长发动机使用寿命,提高发动机可用功率,最大限度发挥发动机的装机特性,从而更好地满足无人机使用需求。统计结果表明,动力系统采用综合控制技术后,发动机使用高度提升36%,相同燃、滑油装载条件下,发动机运转时间延长25%,动力系统在线故障检测率高于92.5%、故障定位率高于96%。达到了动力控制与调节功能的可行性、匹配性、协调性与可靠性的目的。 展开更多
关键词 无人机 动力系统 航空涡轮增压活塞发动机 综合控制方法 闭环控制 故障诊断 试验测试
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