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A feasibility study on using inkjet technology, micropumps, and MEMs as fuel injectors for bipropellant rocket engines

机译：关于使用喷墨技术，微泵和mEm作为双组元火箭发动机燃料喷射器的可行性研究

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Control over drop size distributions, injection rates, and geometrical distribution of fuel and oxidizer sprays in bi-propellant rocket engines has the potential to produce more efficient, more stable, less polluting rocket engines. This control also offers the potential of an engine that can be throttled, working efficiently over a wide range of output thrusts. Inkjet printing technologies, MEMS fuel atomizers, and piezoelectric injectors similar in concept to those used in diesel engines are considered for their potential to yield a new, more active injection scheme for a rocket engine. Inkjets are found to be unable to pump at sufficient pressures, and have possibly dangerous failure modes. Active injection is found to be feasible if high pressure drop along the injector plate is used. A conceptual design is presented and its basic behavior assessed.

机译：控制双推进火箭发动机中燃料和氧化剂喷雾的液滴尺寸分布，喷射速率以及几何分布，有可能生产出更高效，更稳定，污染更少的火箭发动机。这种控制还提供了可以节流的发动机的潜力，可以在很大的输出推力范围内高效工作。与在柴油发动机中使用的概念相似的喷墨打印技术，MEMS燃料雾化器和压电喷射器被认为具有产生新的，更主动的火箭发动机喷射方案的潜力。发现喷墨器不能在足够的压力下泵送，并且可能具有危险的故障模式。如果使用沿喷射器板的高压降，则主动喷射是可行的。提出了概念设计并评估了其基本行为。

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Glynne-Jones Peter; Coletti M.; White N.M.; Gabriel S.B.; Bramanti C.;
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年度 2010
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原文格式 PDF
正文语种 {"code":"en","name":"English","id":9}
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1. A feasibility study on using inkjet technology, micropumps, and MEMs as fuel injectors for bipropellant rocket engines [J] . Peter Glynne-Jones, M. Coletti, N.M. White, Acta astronautica . 2010,第1a2期

机译：使用喷墨技术，微型泵和MEM作为双推进火箭发动机的燃料喷射器的可行性研究
2. Numerical study on the combustion characteristics of a fuel-centered pintle injector for methane rocket engines [J] . Son Min, Radhakrishnan Kanmaniraja, Yoon Youngbin, Acta astronautica . 2017,第JUNa期

机译：甲烷火箭发动机燃料中心枢轴喷油器燃烧特性的数值研究
3. FEASIBILITY STUDY OF PARAFFIN-BASED FUELS FOR HYBRID ROCKET ENGINE APPLICATIONS [J] . Elena Toson, Mario Kobald, Emanuele Cavanna, International journal of energetic materials and chemical propulsion . 2014,第6期

机译：基于石蜡的燃料在混合火箭发动机中应用的可行性研究
4. A Feasibility study on using inkjet technology, micropumps, and MEMs as fuel injectors for bipropellany rocket engines [C] . P. Glynne, C. Bramanti AIAA/ASME/SAE/ASEE Joint Propulsion Conference Exhibit . 2008

机译：使用喷墨技术，微型泵和MEM作为双螺旋桨火箭发动机的燃料喷射器的可行性研究
5. Preliminary design of a pressurization system for small bipropellant rocket engines [D] . Stanley, Steven 2011

机译：小型双推进火箭发动机增压系统的初步设计
6. Analysis of diesel engine injector nozzle spray characteristics fueled with residual fuel oil [O] . C.H. Achebe, B.M.O. Ogunedo, J.L. Chukwuneke, 2020

机译：柴油发动机喷射器喷嘴喷射特性的分析用剩余燃料油燃料
7. A feasibility study on using inkjet technology, micropumps, and MEMs as fuel injectors for bipropellant rocket engines [O] . Peter Glynne-Jones, M. Coletti, N.M. White, 2010

机译：利用喷墨技术，微泵和MEMS作为燃料喷射器的可行性研究，双层火箭发动机
8. Fundamental Studies of Inkjet Based Fuel Injection Technology for Pulsed Detonation Engines. [R] . Daily, J. W. 2005

机译：脉冲爆震发动机喷墨燃油喷射技术的基础研究。

A feasibility study on using inkjet technology, micropumps, and MEMs as fuel injectors for bipropellant rocket engines

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