Новости МКС

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https://blogs.nasa.gov/stationreport/2018/08/20/iss-daily-summary-report-8202018/

ISS Daily Summary Report – 8/20/2018

Waste Hygiene Compartment (WHC) Blower Circuit Breaker Trip:

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This morning the circuit breaker to the WHC blower tripped. After the crew ran the nominal malfunction procedure, the breaker again tripped prompting ground specialists to declare the hardware failed. The crew successfully removed and replaced the failed blower and functional tests were successful; WHC is now a GO for use.

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Japanese Experiment Module (JEM) Airlock Operations for the German Space Agency (DLR) Earth Sensing Imaging Spectrometer (DESIS):

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Today the crew removed the Japanese Small Satellite Orbital Deployer 9 (J-SSOD#9) and the Multipurpose Experiment Platform (MPEP) from the JEM Airlock Slide Table and then installed Payload Mounting Assembly (PMA) hardware and the DESIS on the table. The Slide Table was then retracted into the Airlock in preparation for installation of the DESIS on the Multiple User System for Earth Sensing (MUSES) external facility later this week. The DESIS investigation is expected to verify and enhance commercial space-based hyperspectral (from the visual to near infrared spectrum) imaging capabilities for Earth remote sensing. Requested images are transferred to a hosted cloud that provides user access. DESIS has a number of commercial and humanitarian applications.

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Advanced Colloids Experiment-Temperature-2 (ACE-T-2):

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The crew configured the LMM (Light Microscopy Module) in the Fluids Integrated Rack (FIR) and installed an ACE-T-2 sample. The ACE-T-2 experiment looks at the assembly of complex structures from micron-scale colloidal particles interacting via tunable attractive interactions. The samples contain suspensions of colloidal particles that upon nearing the critical solvent temperature give rise to critical interactions between the particles. Regulating the temperature enables control of the particle interactions, leading to the growth of complex structures.

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ESA's SpacTex-2 and Metabolic Space:

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A crewmember donned Thermolab equipment, a heart rate monitor, and a SpaceTex shirt as part of the SpaceTex-2 investigation. He also donned Metabolic Space equipment and completed an exercise session using the Cycle Ergometer with Vibration Isolation and Stabilization (CEVIS). SpaceTex fabrics provide a higher rate of sweat evaporation and a corresponding higher evaporative heat loss compared to conventional cotton fabrics used by astronauts on the ISS. Metabolic Space provides a technology demonstration for a measurement system worn by astronauts that supports cardio-pulmonary diagnosis during physical activities of astronauts living onboard the ISS, while maintaining unrestricted mobility.

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Biomolecule Extraction and Sequencing Technology (BEST):

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The crew swabbed surfaces on the PMM blackout curtain and areas around the crew quarters, and stowed the samples in a Minus Eighty Degree Celsius Laboratory Freezer for ISS (MELFI). The BEST investigation studies the use of sequencing for the identification of unknown microbial organisms living on the ISS and how humans, plants, and microbes adapt to living on the ISS.

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Granular Damping:

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In support of ESA's Flying Classroom 2 Education Payloads Operations (EPO), a crewmember recorded a video demonstrating the damping mechanism of granular materials. For this demonstration, three-dimensional printed granular shells were produced on-orbit in the Manufacturing Device 3D Printer. Small particles (granules) are packed inside a larger shell (damper) that is either spherical or cylindrical. The experiment demonstrates how the different amount of filling material affects the amount of dissipation upon collision, using shells of spherical and cylindrical forms filled with different amounts of granules.

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Pistol Grip Tool (PGT) Torque Analyzer Kit (TAK) Data Collection:

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Today the crew attempted to use the TAK to record output torque values from the on-orbit PGTs. During the activity, however, the crew was unable to properly drive the TAK with a PGT; additional troubleshooting this afternoon was unsuccessful and ground experts continue to evaluate today's anomaly. The PGT is a programmable, computer-controlled hand-drill like device designed for use by EVA crewmembers. This yearly test is part of normal PGT maintenance and ensures the outputted torques match the settings commanded by the astronaut.

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Treadmill 2 (T2) Status:

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Following Friday morning's false fire indication in the T2 rack, the crew performed an unmanned activation and checkout. T2 engineers have reviewed the data captured during the checkout and T2 was declared 'GO for use' Friday night.

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V-Guide Bag Assembly:

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Today the crew assembled and configured the V-Guide Bag and Radiator V-Guides expected to be taken outside ISS during the next EVA and stowed for future use. The V-Guides would be installed by EVA crewmembers in a contingency to allow the Space Station Remote Manipulator System (SSRMS) to remove and install a degraded Radiator Orbital Replacement Unit (ORU) on the S1 or P1 truss.

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Live Public Affairs Office (PAO) Event:

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Today Gerst participated in a PAO event with Peter Altmaier, German Federal Minister for Economic Affairs, Energy and Space. They discussed how the relevance of human research in microgravity and the need for international cooperation in space could be used to generation enthusiasm for space exploration in the next generation.

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Angiex Cancer Therapy in Space

NASA Johnson

Опубликовано: 21 авг. 2018 г.

Did you ever see a cancer experiment up close? Here's your chance: watch as Flight Engineer Serena Auñón-Chancellor works with the Angiex Cancer Therapy experiment in the International Space Station's Destiny laboratory module. Auñón-Chancellor gives us a look as she grows and examines endothelial cells, which are important in the human body's blood supply system. Scientists want to know if the space-grown cells can improve testing methods for drugs which are aimed at choking off blood supply to cancerous tumors in the body.

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Урок космической кулинарии

Пресс-Центр РКК Энергия

Опубликовано: 21 авг. 2018 г.

Японский космонавт Норишигэ Канаи даёт урок космической кулинарии российским космонавтам Антону Шкаплерову, Олегу Артемьеву и зрителям канала Пресс-центра РКК «Энергия».

Космонавты совместно готовят национальное японское блюдо суши.

Приятного всем аппетита!

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После выхода в космос - Американский контейнер с питанием 1 (подготовка к распаковке)

Oleg Artemyev

Опубликовано: 21 авг. 2018 г.

(2:07)

После выхода в космос - Американский контейнер с питанием 2 (распаковка)

Oleg Artemyev

Опубликовано: 21 авг. 2018 г.

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E56 Inflight US Open - August 21, 2018

NASA Video

Опубликовано: 21 авг. 2018 г.

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Oleg Artemyev‏Подлинная учетная запись @OlegMKS 3 ч. назад

Мы с Сергеем Прокопьевым поздравляем всех с Днём Государственного флага!

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https://blogs.nasa.gov/stationreport/2018/08/21/iss-daily-summary-report-8212018/

ISS Daily Summary Report – 8/21/2018

BioServe Protein Crystallography (BPC)-1:

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The crew performed BioServe Protein Crystallography Microscope operations today. They removed the BioServe Protein Crystallography samples from the Space Automated Bioproduct Laboratory (SABL), made observations, and photographed the sample wells using the microscope, and returned the samples to the SABL. BPC-1 seeks to demonstrate the feasibility of conducting protein crystal growth in real time onboard the ISS. Crewmembers add solutions to the hardware, observe the crystals that form and adjust for follow-on experiments. This approach gives scientists the ability to optimize crystal growth in microgravity instead of waiting for samples to return and then launching them again.

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Biomolecule Extraction and Sequencing Technology (BEST):

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The crew swabbed surfaces on the PMM blackout curtain and areas around the crew quarters and stowed the samples in a Minus Eighty Degree Celsius Laboratory Freezer for ISS (MELFI). The BEST investigation studies the use of sequencing for identification of unknown microbial organisms living on the ISS, and how humans, plants and microbes adapt to living on the ISS.

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Binary Colloidal Alloy Test – Cohesive Sediment (BCAT-CS):

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The crew checked the camera alignment and focus by viewing the latest BCAT images on a laptop and then re-set the intervalometer as needed. The BCAT-CS investigation studies the forces between particles that cluster together by using sediments of quartz and clay particles. Conducting the research in the microgravity environment of the ISS makes it possible to separate the forces acting on the particles over a short range (adhesive forces) versus those acting over a long range (cohesive forces). The quartz/clay system is commonly found in a wide variety of environmental settings (such as rivers, lakes, and oceans) and plays an important role in technological efforts related to deep-sea hydrocarbon drilling and carbon dioxide sequestration.

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Mobile Servicing System (MSS) Operations:

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This evening, ground robotic specialists will use Special Purpose Dexterous Manipulator (SPDM) to engage gimbal locks on the Multiple User System for Earth Sensing (MUSES) platform. The DLR Earth Sensing Imaging Spectrometer (DESIS) payload, which was installed in the JEM Airlock yesterday, will be transferred to the MUSES platform next week. After the MUSES prep tonight SPDM will then be used to move a spare Remote Power Controller Module (RPCM) from CTC-2, which is next to MUSES on ELC-4, to a spare RPCM slot on S0 (pre-staging spare to simplify future RPCM R&R if needed). MUSES is a FRAM-based platform which can host up to four Earth-sensing payloads. MUSES launched on SpX-11 & installed on ELC-4 without any Hosted Payloads. Hosted Payloads flown internally & transferred to/from MUSES by SPDM via JEM Airlock.

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Japanese Experiment Module Remote Manipulator System (JEMRMS) Small Fine Arm (SFA) Backup Drive System (BDS) Install and Checkout:

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The crew installed the new SFA BDS and re-configured JEMRMS cabling to perform a checkout of the unit. This new BDS provides backup commanding capability to the SFA and, coupled with the already installed JEMRMS BDS, allows operators to safely operate the entire JEMRMS system if the primary command console fails. Following the checkout, the crew reconfigured the JEMRMS system for nominal operations.

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Emergency Mask Review On Board Training (OBT):

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The entire 55S crew reviewed and practiced the Emergency Mask donning and purging technique using training masks. The crew regularly completes OBT sessions to refresh their familiarity with the various emergency procedures that can result from off-nominal events onboard ISS.

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WHC Waste and Hygiene Compartment (WHC) Piping Remove and Replace (R&R):

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The crew replaced the WHC piping between the Pump Separator and the Dose Pump. Scheduled every 180 days, this routine preventive maintenance activity ensures proper operation of WHC and minimizes the probability of a leak within the system.

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Astronaut Moment: Serena Auñón-Chancellor

NASA Johnson

Опубликовано: 22 авг. 2018 г.

How do you rehearse for a space mission? One way Astronaut Serena M. Auñón-Chancellor prepared for space was by visiting extreme environments, under the sea and in the Antarctic. Find out how conducting research under the ocean and searching for meteorites in the snow prepared Serena for a mission to the International Space Station.

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https://blogs.nasa.gov/spacestation/2018/08/22/russian-ship-taking-out-trash-after-day-of-biology-studies/

Russian Ship Taking Out Trash After Day of Biology Studies

Mark Garcia
Posted Aug 22, 2018 at 1:04 pm

A Russian cargo ship is packed and ready for departure tonight from the International Space Station after a six-month stay. Meanwhile, the Expedition 56 crew members explored a variety of biological phenomena impacted by the weightless environment of space.

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Russia's Progress 69 (69P) cargo craft will undock from the Zvezda service module tonight at 10:16 p.m. EDT packed with trash and discarded hardware. It will orbit Earth for seven more days of engineering tests before finally reentering Earth's atmosphere over the Pacific Ocean for a fiery, but safe destruction. The 69P arrived in February delivering over three tons of food, fuel and supplies for the Expedition 54 crew.

Three astronauts worked three different life science experiments today to understand how living in space affects biology. The results could potentially increase the efficiency of orbital research and improve the lives of humans on Earth and in space.

Commander Drew Feustel, who leads the six-member station crew, looked at protein crystals through a microscope today for the BioServe Protein Crystalography study. The experiment is helping scientists on Earth analyze the samples in space real time, possibly saving critical research time and improving the development of disease-treating drugs.

Educator astronaut Ricky Arnold of NASA took part in another similar protein crystal study today peering through a microscope and photographing research samples. The main objective of the Protein Crystal Growth-13 experiment is to fine-tune the research process in space and help public and private organizations deliver results and benefits sooner.

Exercise is critically important in space so astronauts can stay healthy while living off the Earth for long periods of time. Researchers from the German Aerospace Centre (DLR) are observing a new type of t-shirt with a specialized fabric that can help astronauts dispel heat and sweat efficiently during a space workout. Astronaut Alexander Gerst of ESA (European Space Agency) exercised today in the custom t-shirt for the SpaceTex-2 study to report on its comfort and effectiveness.

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https://blogs.nasa.gov/spacestation/2018/08/22/russian-cargo-ship-leaves-station-after-six-month-stay/

Russian Cargo Ship Leaves Station After Six-Month Stay

Mark Garcia
Posted Aug 22, 2018 at 10:54 pm


The Russian Progress 69 (69P) resupply ship approaches the aft end of the Zvezda service module where it docked Feb. 15, 2018.

Loaded with trash, the Russian Progress 69 cargo craft undocked from the aft port of the Zvezda Service Module at 9:16 p.m. CDT, 10:16 p.m. EDT, completing a six-month delivery run to the International Space Station.

The unpiloted Progress will move to a safe distance from the orbital laboratory for a week's worth of engineering tests by Russian flight controllers before it is commanded to deorbit next Wednesday night. It will then burn up harmlessly in the Earth's atmosphere over the Pacific Ocean.

The next Progress cargo ship to launch from the Baikonur Cosmodrome in Kazakhstan, Progress 71, is scheduled in late October.

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Текущая конфигурация МКС (по состоянию на 03:00 UTC 2018-08-23)

https://img.novosti-kosmonavtiki.ru/208871.jpg

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Station Commander Drew Feustel talks with The Big Ten Network - August 22, 2018

NASA Video

Опубликовано: 22 авг. 2018 г.

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https://www.roscosmos.ru/25430/

ЦНИИмаш. Грузовой корабль «Прогресс МС-08» отстыковался от МКС
23.08.2018 09:40

В соответствии с программой полёта Международной космической станции (МКС) 23 августа 2018 года транспортный грузовой корабль (ТГК) «Прогресс МС-08» отстыковался от российского сегмента (РС) МКС.

По штатной программе расхождения объектов ТГК «Прогресс МС-08» в 05 час. 16 мин. по московскому времени отделился от стыковочного узла российского служебного модуля «Звезда». В 05 час. 19 мин. по московскому времени включилась двигательная установка ТГК и корабль был отведён на безопасное расстояние от орбитальной станции.

Планом полёта транспортного грузового корабля предусмотрены сход с орбиты и его затопление 30 августа 2018 года. По расчётам специалистов службы баллистико-навигационного обеспечения Центра управления полетами (ЦУП) маршевый двигатель ТГК «Прогресс МС-08» будет включен на торможение в 04 час. 23 мин. 27 сек. мск. Спустя 3 минуты двигатель завершит работу и корабль начнёт сход с околоземной орбиты. В 04 час. 58 минут ТГК «Прогресс МС-08» войдет в атмосферу Земли. Падение несгораемых элементов конструкции корабля произойдёт в 05 час. 07 мин. мск. в несудоходном районе акватории Тихого океана с координатами 41.18 ю. ш. — 224.29 в. д.

Транспортный грузовой корабль «Прогресс МС-08» находился в составе Международной космической станции с 11 февраля 2018 года.

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Jonathan McDowell‏Подлинная учетная запись @planet4589 22 мин. назад

The @SurreySat RemoveDEBRIS spacecraft will eject its first subsatellite in October

Surrey Satellites‏Подлинная учетная запись @SurreySat 28 мин. назад

We are pleased to announce that the RemoveDEBRIS spacecraft has completed in-orbit commissioning & is ready to start #ADR experimental phase of the mission. https://bit.ly/2BDnDul 

https://www.sstl.co.uk/getattachment/Media-Hub/Latest-News/2018/RemoveDEBRIS-mission-completes-in-orbit-commission/PR-RemoveDEBRIS-end-of-LEOP-FINAL.pdf?lang=en-GB&ext=.pdf

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https://ria.ru/space/20180823/1527064500.html

Российские космонавты на МКС меняют у американцев творог на крабов

09:36 23.08.2018

МОСКВА, 23 авг — РИА Новости. Российские космонавты меняют у американских коллег на Международной космической станции (МКС) творог на консервы с крабами, рассказал россиянин Олег Артемьев.

В кухне США творога нет, самый ближайший аналог – cottage cheese, домашний сыр, но по структуре и вкусу он отличается от творога. Этим и вызван интерес зарубежных коллег к российскому продукту.

"Это самая обалденная вещь — крабы, на что мы меняем наш творог", — сказал космонавт на видео на своей странице в YouTube, демонстрируя консервную банку с крабовым мясом.

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На видео космонавт разбирает посылку с продуктами, которые он заказал в США перед полетом на МКС. Среди заказанных Артемьевым блюд чесночная паста, вяленое мясо, тунец с приправой, утиные грудки, копченые устрицы, закуска из креветок, орешки, острая приправа, свиная отбивная на гриле, говяжья фахита и какао.

"Это вещь. Это самая вкусная вещь — это какао, потому что у нас такого какао нету", — сказал космонавт.

У космонавтов и астронавтов имеется возможность выбора блюд в дополнение к национальным основным рационам. Многократно сообщалось, что зарубежные астронавты в качестве дополнительных продуктовых бонусов выбирают блюда русской кухни.

Аналогичный выбор у экипажа МКС имеется и по выбору одежды. Они могут комбинировать форму российского и американского производства. ...

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Первый теннисный турнир на МКС

Oleg Artemyev

Опубликовано: 23 авг. 2018 г.

На МКС прошёл первый теннисный турнир. В турнире участвовали: Олег Артемьев, Сергей Прокопьев, Адександр Герст, Эндрю Фьюйстел

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