首页|期刊导航|空间科学学报|金星着陆器长寿命生存技术研究进展

金星着陆器长寿命生存技术研究进展

WANG Hujun CHU Yingzhi ZHANG Xiao LIU Yi XU Hang ZHONG Yubin LIU Weixin

空间科学学报2025，Vol.45Issue(6)：1492-1505,14.

空间科学学报2025，Vol.45Issue(6)：1492-1505,14.DOI:10.11728/cjss2025.06.2024-0178

金星着陆器长寿命生存技术研究进展

Research Progress on Long-lived Survival Technology of Venus Lander

WANG Hujun ¹CHU Yingzhi ²ZHANG Xiao ²LIU Yi ¹XU Hang ¹ZHONG Yubin ¹LIU Weixin¹

作者信息

1. Deep Space Exploration Laboratary,Hefei 230026
2. Deep Space Exploration Laboratary,Hefei 230026||Shanghai Institute of Satellite Engineering,Shanghai 201109
折叠

摘要

Abstract

Venus,as a major component of terrestrial planets,is of great scientific significance for ex-ploration and research.Understanding Venus can enhance our knowledge of the formation and evolution of terrestrial planets,the development of Earth's habitability,and the strategies for searching habitable exoplanets.Recently,Venus exploration has witnessed a resurgence,with Europe,the US,Russia,and India planning new missions around 2030.However,its infernal surface conditions,a scorching 462℃,crushing 9.3 MPa pressure(equivalent to 900 m underwater on Earth),and corrosive CO2 atmosphere laden with sulfuric acid aerosols,which have limited prior missions to mere hours of operation,exempli-fied by the Soviet Venera 13's 127-minute survival record.To address the need for long-duration Venus surface missions,this paper analyzes the challenges of lander long-life survival based on Venus's environ-ment,i.e.,energy acquisition and environmental adaptation.It reviews the research progress in four areas:lightweight pressure-resistant structures,high-temperature electronics,power systems,and ther-mal control technology,while offering design recommendations.Lightweight pressure-resistant structures,represented by honeycomb structures,lattice structures,and composite materials,show promise in effec-tively reducing the lander's weight while maintaining structural integrity.High-temperature electronics,based on materials like Silicon Carbide(SiC),can significantly enhance the performance and service life of electronic devices in extreme heat.Efficient energy systems,including radioisotope Stirling generators and high-temperature batteries,are expected to supply stable power to the lander and lessen the energy system's demand on thermal control resources.In terms of thermal control technology,building on high-performance heat storage and insulation materials,employing high-temperature Stirling cooling or com-pression cooling techniques can effectively tackle the heat dissipation issues for landers in high-tempera-ture settings.The design recommendations outlined in this paper aim to provide valuable references for potential future Venus lander exploration missions,aiding in the development of more advanced and durable lander systems capable of withstanding Venus's challenging environment for extended periods.

关键词

着陆器/长寿命生存/高温电子设备/能源系统/热控

Key words

Lander/Long-lived survival/High temperature electronics/Power system/Thermal control

分类

航空航天

引用本文复制引用

WANG Hujun,CHU Yingzhi,ZHANG Xiao,LIU Yi,XU Hang,ZHONG Yubin,LIU Weixin..金星着陆器长寿命生存技术研究进展[J].空间科学学报,2025,45(6):1492-1505,14.

基金项目

深空探测实验室前沿科研计划项目资助(GC07JX0001ZC3ZT-2326) （GC07JX0001ZC3ZT-2326）

空间科学学报

OA北大核心

ISSN：0254-6124

访问量0

下载量0

段落导航