郑州轻工业附属中学 河南省郑州市-河南省 China 19 years old, 18 years old 4 / 0 Chinese Mars
我们的火星营地位于南北极地区及中纬度地区,选择这些地点是因为地下冰层丰富且附近可能有矿物质资源。航行采用高效的霍曼转移轨道,着陆点依据遥感数据选定,综合考虑冰盖分布和地形气候,以确保安全和资源的可及性。火星着陆采用特殊技术,如降落伞和推进器。我们的活动将紧密围绕预定的科学目标和任务要求进行。火星营地采用穹顶设计,以曲面覆盖球形顶部和椭圆形舱室,实现结构力的均衡分布。在主体四周还建设太阳能板和充电站。火星表面广泛分布着矿物,所以我们希望所设计的营地能对探索,开发火星做出贡献。为了实现火星探索与开发,我们设计了采矿车、运输车以及车辆充电站,以便捷地采集矿物并保障出行效率。主体营地内部配备有实验室,专门用于矿物分析和处理工作。为了应对火星上稀缺的能源条件,我们设计了一款可折叠太阳能板,它不仅高效收集能源,而且能够折叠以抵御极端天气。考虑到火星表面丰富的水冰层,我们的采矿车也具备采冰功能。此外,我们还建立了储水站来确保水资源的持续供应。利用太阳能进行水的电解,我们能够产生氧气和氢气,进而通过主体营地的内部循环系统供应氧气。为保障稳定的食物供应,我们建设太空农场,为工作人员提供健康的食物。
English translation
Our Mars camps are located in the North and South Polar Regions and in mid-latitudes, chosen because of the abundance of subsurface ice and the potential for nearby mineral resources. The voyage utilizes an efficient Hohmann transfer orbit, and the landing sites are selected based on remote sensing data, taking into account the distribution of the ice sheets and the terrain and climate to ensure safety and accessibility of resources. Mars landings utilize special technologies such as parachutes and thrusters. Our activities will be closely centered on predefined scientific objectives and mission requirements. The Mars camp is designed as a dome, with curved surfaces covering the spherical top and elliptical chambers to achieve a balanced distribution of structural forces. Solar panels and charging stations are also constructed around the main body. Since minerals are widely distributed on the surface of Mars, we hope that the designed camp will contribute to the exploration and development of Mars. In order to realize the exploration and development of Mars, we have designed a mining vehicle, a transportation vehicle, and a vehicle charging station to facilitate the collection of minerals and to ensure the efficiency of travel. The main camp is equipped with an internal laboratory dedicated to mineral analysis and processing. To cope with the scarce energy conditions on Mars, we designed a foldable solar panel that not only collects energy efficiently, but also folds to withstand extreme weather. Given the abundance of water ice on the Martian surface, our mining rover is also equipped with ice harvesting capabilities. In addition, we have built water storage stations to ensure a constant supply of water. By electrolyzing water with solar energy, we are able to produce oxygen and hydrogen, which are then supplied through the main camp’s internal circulatory system. To ensure a steady supply of food, we built a space farm to provide healthy food for the crew.
