用于研究行星冰和冰下环境的探测器

IF 0.7 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Led i Sneg-Ice and Snow Pub Date : 2019-03-20 DOI:10.15356/2076-6734-2019-1-123-134

A. V. Zelenchuk, V. Krylenkov

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引用次数: 1

摘要

本文提出了一种利用探头(或低温机器人)产生的水力影响来提高热钻冰速率的技术，该技术增加了热能转化为融冰能量的系数，并允许增加探头热头的功率。提出了一种单线特斯拉系统用于探针电源，可以减少电缆的体积和传输能量的损失。提出了一种不用液压力(牵引力)，即电缆不受载荷的探针自举至冰面的方法。为了研究地球上厚(达5公里)的冰盖和冰下水环境，以及欧洲(木星的卫星)的冰盖(厚达30公里)和冰下海洋，探测器(或cryobot)的概念主要设计已经在热液压钻井(THD)的基础上开发出来。实施THD - cryobot设计将能够对地球和其他行星上的冰川和冰下水环境进行系统的研究，而不会扰乱它们的冰隔离，从而大大节省资金和技术手段、能源和时间。

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Probes for the study of icy and subglacial environment of planets

The article proposes a technology for increasing the thermic ice drilling rate under the influence of hydraulic force generated by the probe (or cryobot), which increases the coefficient of conversion of thermal energy into the energy of ice melting and allows increasing the power of thermal head of the probe. A single-wire Tesla system is proposed to use for the probe power supply, which makes it possible to reduce the volume of the cable and losses of transmitted energy. The method of the probe self-lifting to the ice surface without using the hydraulic force (traction), i.e. without a load on the cable, is proposed. To study thick (up to 5 km) ice sheets and subglacial water environments on the Earth, as well as the ice cover (up to 30 km thick) and the subglacial ocean of the Europe (the Jupiter’s satellite), conceptual principal designs of the probe (or cryobot) have been developed on the basis of thermic-hydraulic drilling (THD). Implementation of the THD‑cryobot designs will allow organizing systemic studies of glaciers and subglacial water environments on the Earth and other planets, not disturbing their ice isolation with multiple savings of financial and technical means, energy and time.

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来源期刊

Led i Sneg-Ice and Snow GEOSCIENCES, MULTIDISCIPLINARY-

CiteScore

1.50

自引率

42.90%

发文量

审稿时长

8 weeks

期刊介绍： The journal was established with the aim of publishing new research results of the Earth cryosphere. Results of works in physics, mechanics, geophysics, and geochemistry of snow and ice are published here together with geographical aspects of the snow-ice phenomena occurrence in their interaction with other components of the environment. The challenge was to discuss the latest results of investigations carried out on Russia’s territory and works performed by Russian investigators together with foreign colleagues. Editorial board works in collaboration with Glaciological Association that is professional community of specialists in glaciology from all republics of the Former Soviet Union which are now new independent states. The journal serves as a platform for the presentation and discussion of new discoveries and results which help to elucidate the state of the Earth’s cryosphere and the characteristics of the evolution of the snow-ice processes and phenomena under the current conditions of rapid climate change.