Human exploration of near earth asteroids: Mission analysis for chemical and electric propulsion |
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Authors: | Jonathan FC Herman Aline K Zimmer Johannes PJ Reijneveld Kathryn L Dunlop Yu Takahashi Simon Tardivel Daniel J Scheeres |
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Institution: | 1. Delft University of Technology, The Netherlands;2. University of Stuttgart, Germany;3. University of Colorado at Boulder, USA |
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Abstract: | This paper presents a mission analysis comparison of human missions to asteroids using two distinct architectures. The objective is to determine if either architecture can reduce launch mass with respect to the other, while not sacrificing other performance metrics such as mission duration. One architecture relies on chemical propulsion, the traditional workhorse of space exploration. The second combines chemical and electric propulsion into a hybrid architecture that attempts to utilize the strengths of each, namely the short flight times of chemical propulsion and the propellant efficiency of electric propulsion. The architectures are thoroughly detailed, and accessibility of the known asteroid population is determined for both. The most accessible asteroids are discussed in detail. Aspects such as mission abort scenarios and vehicle reusability are also discussed. Ultimately, it is determined that launch mass can be greatly reduced with the hybrid architecture, without a notable increase in mission duration. This demonstrates that significant performance improvements can be introduced to the next step of human space exploration with realistic electric propulsion system capabilities. This leads to immediate cost savings for human exploration and simultaneously opens a path of technology development that leads to technologies enabling access to even further destinations in the future. |
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Keywords: | Electric propulsion Trajectory optimization Asteroids Human missions |
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