Application of the HeliosX ICF Advanced Propulsion Mission Analysis Code to Perturbed Interstellar Design Models

Q4 Engineering

Jbis-Journal of the British Interplanetary Society Pub Date : 2023-05-15 DOI:10.59332/jbis-076-03-0094

K. Long

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Abstract

HeliosX is a system integrated programming design tool which has the purpose of calculating spacecraft mission profile and propulsion performance for inertial confinement fusion (ICF) driven designs. This code uses the vehicle configuration input and capsule assumptions and then calculates the likely mission profile for a given destination target. The key technology is the inclusion of the fusion propulsion system and an adequate modelling of its likely energy outputs. This paper discusses calculations for perturbed design concepts from a baseline model in both series and parallel thrust mode. These new concepts are collectively known as the advanced baseline models which are presented in preliminary form under the names Resolution, Endeavour and Pegasus. These are for missions to 4.3 ly in trip times of less than 100 years for flyby and rendezvous configurations carrying a 150 tons payload. The designs utilise an ICF capsule mass of 0.288 g filled with D-3He fuel detonated at a pulse frequency in the range 100-150 Hz. The calculations show that the propulsion systems are characterised by thrusts 0.3-2 MNkg-1, jet powers 1.2-9.2 TW and specific powers 2.9-5.1 MWkg-1 for interstellar missions at 0.045-0.049c. In addition to the preliminary mission performance calculations we also discuss the philosophy and methodology used in the design evolution. Keywords: Interstellar Studies, Fusion Propulsion, HeliosX, Project Icarus

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HeliosX ICF先进推进任务分析代码在摄动星际设计模型中的应用

HeliosX是一种系统集成编程设计工具，用于计算惯性约束聚变(ICF)驱动设计中的航天器任务轮廓和推进性能。此代码使用车辆配置输入和胶囊假设，然后计算给定目的地目标的可能任务轮廓。关键技术是包括聚变推进系统和其可能的能量输出的适当建模。本文讨论了基于基线模型的摄动设计概念在串联和并联推力模式下的计算。这些新概念统称为先进基线模型，以初步形式以决议、奋进和飞马的名称提出。这些是在飞行时间不到100年的4.3英里的飞行和交会配置中携带150吨有效载荷的任务。该设计利用一个质量为0.288 g的ICF胶囊填充D-3He燃料，在100-150 Hz的脉冲频率范围内引爆。计算结果表明，在0.045-0.049c的星际任务中，推进系统的推力为0.3-2 MWkg-1，射流功率为1.2-9.2 TW，比功率为2.9-5.1 MWkg-1。除了初步的任务性能计算外，我们还讨论了设计演变中使用的哲学和方法。关键词:星际研究，聚变推进，HeliosX，伊卡洛斯计划

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来源期刊

Jbis-Journal of the British Interplanetary Society Earth and Planetary Sciences-Space and Planetary Science

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： The Journal of the British Interplanetary Society (JBIS) is a technical scientific journal, first published in 1934. JBIS is concerned with space science and space technology. The journal is edited and published monthly in the United Kingdom by the British Interplanetary Society. Although the journal maintains high standards of rigorous peer review, the same with other journals in astronautics, it stands out as a journal willing to allow measured speculation on topics deemed to be at the frontiers of our knowledge in science. The boldness of journal in this respect, marks it out as containing often speculative but visionary papers on the subject of astronautics.