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排序方式: 共有125条查询结果,搜索用时 12 毫秒
61.
Yunfeng Yu Fei Yang Honghao Yue Yifan Lu Shaozhen Li Haihong Zhao 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(6):1816-1829
Capturing large space debris with complex rotational motion is extremely challenging. A de-tumbling phase before capturing may be necessary to reduce the risk of collision with debris. This paper proposes a new noncontact de-tumbling method using a two-satellite electromagnetic formation, in which two small electromagnetic satellites, each having a high-temperature superconducting coil, generate control torques to reduce the rotation rate of debris prior to making any physical contact. The electromagnetic interaction of the target-satellite system is analyzed. A relative translational dynamics of the target–satellite system and the attitude dynamics of the target are established. Simulation results show that the proposed method effectively eliminates the rotational motion of the target. It can be safely concluded that the noncontact method for de-tumbling space debris using a two-satellite electromagnetic formation is feasible and potentially applicable to on-orbit capture. 相似文献
62.
Houman Hakima Michael C.F. Bazzocchi M. Reza Emami 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(9):2377-2392
This paper introduces a mission concept for active removal of orbital debris based on the utilization of the CubeSat form factor. The CubeSat is deployed from a carrier spacecraft, known as a mothership, and is equipped with orbital and attitude control actuators to attach to the target debris, stabilize its attitude, and subsequently move the debris to a lower orbit where atmospheric drag is high enough for the bodies to burn up. The mass and orbit altitude of debris objects that are within the realms of the CubeSat’s propulsion capabilities are identified. The attitude control schemes for the detumbling and deorbiting phases of the mission are specified. The objective of the deorbiting maneuver is to decrease the semi-major axis of the debris orbit, at the fastest rate, from its initial value to a final value of about 6471?km (i.e., 100?km above Earth considering a circular orbit) via a continuous low-thrust orbital transfer. Two case studies are investigated to verify the performance of the deorbiter CubeSat during the detumbling and deorbiting phases of the mission. The baseline target debris used in the study are the decommissioned KOMPSAT-1 satellite and the Pegasus rocket body. The results show that the deorbiting times for the target debris are reduced significantly, from several decades to one or two years. 相似文献
63.
I. Kim H. Hirayama T. Hanada 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2010
Japan Aerospace Exploration Agency (JAXA) has proposed an active debris removal using electro-dynamic tether to reduce large space debris in the low-Earth orbit. However, a tether strand is thin but long enough to have a large area so that it is vulnerable to small particles. This vulnerability might be the weakest point of a tether system against orbital debris. In order to overcome this weakest point, a double tether system, in which two tether strands are tied together at even intervals to form equally spaced loops, has been suggested as one of the promising candidates. This paper provides a mathematical approach to estimate the survival probability of a double tether system and then apply the approach to evaluate the mission success rate of the active debris removal using electro-dynamic tether that JAXA has proposed. It can be concluded the countermeasure to get enough success rate can be obtained. The result is simulated for Advanced Earth Observing Satellite II (ADEOS-II) re-entry from 800 km sun synchronized orbit to atmosphere. The simulation shows that mission success rate over 90% can be obtained with number of loops over 1000 and 10 mm clearance between two strands. 相似文献
64.
65.
A.A. Baranov D.A. Grishko G.A. Shcheglov A.S. Sholmin M.V. Stognii N.D. Kamenev 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(1):371-383
Analysis of the efficiency of two basic strategies for de/re-orbiting large space debris objects to disposal orbits (DO) is given. Large objects in LEO are classified into groups with similar orbital inclinations and comprise primarily last stages of launch vehicles, in GEO vicinity the paper studies upper stages. Under the first de/re-orbiting variant, it is assumed a spacecraft-collector is equipped with several thruster de/re-orbiting kits (TDKs); one of them can be fixed on an object and is capable of de/re-orbiting an object to a DO independently of the collector. In the second variant, a collector operates as a space tug: transfers objects to a DO and then returns to the next objects in line. The authors study possible configuration layouts of collectors in LEO and near GEO. The available analogous projects are analyzed. The efficiency of both de/re-orbiting variants can be properly compared using the estimations of collector's dry mass and having at one's disposal the parameters of the maneuvers required for transfers between all objects in the group. As reasonable criteria of effectiveness, one can consider (separately or jointly) the launch mass of an equipped collector, its ΔV budget, and the required number of such active spacecraft. Two de/re-orbiting variants are compared in terms of these criteria via mass-energy diagrams constructed for each group of objects in both altitude regions. Analysis of these diagrams shows that low Earth orbits can be more efficiently cleaned under the first de-orbiting variant by using a two-stage space system consisting of an active spacecraft carrying TDKs. For GEO, it is expedient to choose the second re-orbiting variant using a single-stage spacecraft. Our analysis shows that LEO cleaning is an order of magnitude more expensive than that for GEO, hence the problem of LEO population should be given increased attention. 相似文献
66.
为了使空间绳系组合体更好地完成空间碎片清理任务,提出一种更接近工程实际应用的继电型推力(Bang-Bang)离轨控制策略。利用带有差动间隙的Bang-Bang控制策略,实现绳系组合体切向的继电式推力加速;设计了一种全新的被动式卷扬机构,以避免在使用继电式推力离轨的过程中多次开关发动机对绳系组合体带来的负面影响;针对径向推力设计了输入受限的滑模控制器,且最终控制指令同样以继电式推力形式实现,抑制了离轨过程中绳系组合体的面内摆动。数值仿真结果显示,继电型推力能够实现与连续推力近似的效果,能够将绳系组合体的摆动角度抑制在一个较小的范围内;整个离轨控制策略能够使得空间绳系组合体在保持姿态稳定的前提下将空间碎片拖曳到坟墓轨道。 相似文献
67.
针对高温合金IN718上ø0.5mm气膜冷却孔的加工,采用煤油中旋转电极内冲液电火花成型加工方法,利用正交试验设计方法对试验进行设计分析,分析峰值电流、脉宽、占空比和冲液压强4个因素对材料去除率和电极相对损耗的影响,基于正交试验结果建立综合评分公式,选择最优加工参数.研究结果表明,峰值电流对材料去除率的影响最明显, 其次为冲液压强和占空比,脉宽对材料去除率的影响很小;峰值电流对电极相对损耗的影响最明显,其次为冲液压强,占空比和脉宽对电极相对损耗的影响很小;最优的加工参数峰值电流为8A、脉宽为130μs、占空比为0.35、冲液压强为5MPa,对该参数进行加工试验研究,与分析结果一致. 相似文献
68.
Harry W. Jones Mark H. Kliss 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2010
As NASA implements the U.S. Space Exploration Policy, life support systems must be provided for an expanding sequence of exploration missions. NASA has implemented effective life support for Apollo, the Space Shuttle, and the International Space Station (ISS) and continues to develop advanced systems. This paper provides an overview of life support requirements, previously implemented systems, and new technologies being developed by the Exploration Life Support Project for the Orion Crew Exploration Vehicle (CEV) and Lunar Outpost and future Mars missions. The two contrasting practical approaches to providing space life support are (1) open loop direct supply of atmosphere, water, and food, and (2) physicochemical regeneration of air and water with direct supply of food. Open loop direct supply of air and water is cost effective for short missions, but recycling oxygen and water saves costly launch mass on longer missions. Because of the short CEV mission durations, the CEV life support system will be open loop as in Apollo and Space Shuttle. New life support technologies for CEV that address identified shortcomings of existing systems are discussed. Because both ISS and Lunar Outpost have a planned 10-year operational life, the Lunar Outpost life support system should be regenerative like that for ISS and it could utilize technologies similar to ISS. The Lunar Outpost life support system, however, should be extensively redesigned to reduce mass, power, and volume, to improve reliability and incorporate lessons learned, and to take advantage of technology advances over the last 20 years. The Lunar Outpost design could also take advantage of partial gravity and lunar resources. 相似文献
69.
Michael C.F. Bazzocchi Juan Miguel Sánchez-Lozano Houman Hakima 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2021,67(3):1155-1173
As private companies and government space agencies begin to seriously consider the task of active space debris removal, it is becoming increasingly more important to determine the highest priority objects to deorbit. This work sets forth an approach for prioritization of space debris through the utilization of Multi-Criteria Decision-Making methodologies and fuzzy logic, as well as both quantitative and qualitative criteria. The proposed debris prioritization approach considers various criteria including the orbit, size, mass, pairwise and total collision probabilities, and decay timeframe of each debris object. The means of assigning attributes to each assessment criterion is discussed in detail. To determine the weighting scheme for the criteria, a questionnaire was prepared and shared with experts in the field of space situational awareness. The work examines over two thousand critical debris objects selected from the existing debris catalog with respect to these criteria. The quantified attributes for each debris object are then aggregated through the fuzzy versions of the Analytic Hierarchy Process and the Technique for Order Preference by Similarity to Ideal Solution. The results of the analysis identify high-priority debris objects for removal from Earth-bound orbits. 相似文献
70.