Termální manažment pro misi CIMER
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Date
Authors
Borovička, Matej
ORCID
Advisor
Referee
Mark
A
Journal Title
Journal ISSN
Volume Title
Publisher
Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií
Abstract
Táto práca sa zaoberá tepelnou analýzou CubeSatu, pričom vyhodnotenie a následná implementácia výsledkov do samotnej konštrukcie družice je veľmi dôležitá na zabezpečenie správneho fungovania všetkých jej komponentov. V prvej časti je opísaná problematika tepelnej analýzy a návrhy pre vesmírne aplikácie. Druhá časť je venovaná tepelnému návrhu nanosatelitu CIMER, ktorého úlohou je kultivácia cyanobaktérií na nízkej obežnej dráhe Zeme. Sinice majú veľmi špecifické požiadavky, pokiaľ ide o teplotný rozsah, v ktorom môžu prežiť. Táto analýza je preto veľmi dôležitá pre fungovanie celej misie. Práca opisuje vytvorenie tepelného návrhu v softvéri Systema Thermica, jeho následnú analýzu a vyhodnotenie. Nakoniec je model upravený na podmienky potrebné na prežitie siníc vo vesmíre.
This thesis deals with the thermal analysis of the CubeSat, the evaluation and subsequent implementation of the results in the satellite design itself is very important to ensure the proper functioning of all its components. The first part describes thermal analysis issues and proposals for space applications. The second part is devoted to the thermal design of the CIMER nanosatellite, whose mission is to cultivate cyanobacteria in low Earth orbit. Cyanobacteria have very specific requirements in terms of the temperature range in which they can survive. This analysis is therefore very important for the functioning of the entire mission. The thesis describes the creation of a thermal design in the software Systema Thermica, its subsequent analysis and evaluation. Finally, the model is adapted to the conditions required for the survival of cyanobacteria in space.
This thesis deals with the thermal analysis of the CubeSat, the evaluation and subsequent implementation of the results in the satellite design itself is very important to ensure the proper functioning of all its components. The first part describes thermal analysis issues and proposals for space applications. The second part is devoted to the thermal design of the CIMER nanosatellite, whose mission is to cultivate cyanobacteria in low Earth orbit. Cyanobacteria have very specific requirements in terms of the temperature range in which they can survive. This analysis is therefore very important for the functioning of the entire mission. The thesis describes the creation of a thermal design in the software Systema Thermica, its subsequent analysis and evaluation. Finally, the model is adapted to the conditions required for the survival of cyanobacteria in space.
Description
Citation
BOROVIČKA, M. Termální manažment pro misi CIMER [online]. Brno: Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií. 2024.
Document type
Document version
Date of access to the full text
Language of document
en
Study field
bez specializace
Comittee
doc. Ing. Tomáš Götthans, Ph.D. (předseda)
doc. Ing. Aleš Povalač, Ph.D. (místopředseda)
Ing. Václav Lazar, Ph.D. (člen)
mjr. Ing. Markéta Vršecká, Ph.D. (člen)
prof. RNDr. René Hudec, CSc. (člen)
Ing. Václav Havlíček (člen)
Date of acceptance
2024-06-04
Defence
The student presents the results and procedures of his thesis. Secretary reads the opinions of thesis supervisor and opponent. The student agrees with the content of the opinions. The student answers questions of the thesis opponent.
Ing. Havlíček: Can you comment on where would you put ideal temperature of subsystem components? Can you provide more information on thermal straps? The student provides satisfying answers.
Ing. Lazar: What were the temperature requirements for the payload? The students provides an answer and provides additional descriptions of diagrams.
Result of defence
práce byla úspěšně obhájena
Document licence
Standardní licenční smlouva - přístup k plnému textu bez omezení