MIR ISS

75 %
25 %
Information about MIR ISS
Entertainment

Published on November 21, 2007

Author: worm

Source: authorstream.com

From MIR to ISS Experiment on study of plants’ growth and ripening in space flight conditions:  From MIR to ISS Experiment on study of plants’ growth and ripening in space flight conditions “GREENHOUSE” SPACE EXPERIMENT GOALS creation of technical complex to grow plants on-board space station study of plants’ growth and ripening in space flight conditions SPACE EXPERIMENT FACILITIES TECHNICAL STUFF – The “Light” Greenhouse equipped with gaging equipment (joint working out of the Institute of Biomedical Problems and Space Research Institute of Belarusan Academy of Science) FLIGHT EQUIPMENT: plants growing chamber; plant-house (root module); lighthead; control unit. GAGING EQUIPMENT: gas analyzer (GAS) – designed by US personnel; pouch with substratum humidity sensors; system of environmental parameters measurements (EDS); power unit (PDS); PC (data collection and operation). :  “GREENHOUSE” SPACE EXPERIMENT GOALS creation of technical complex to grow plants on-board space station study of plants’ growth and ripening in space flight conditions SPACE EXPERIMENT FACILITIES TECHNICAL STUFF – The “Light” Greenhouse equipped with gaging equipment (joint working out of the Institute of Biomedical Problems and Space Research Institute of Belarusan Academy of Science) FLIGHT EQUIPMENT: plants growing chamber; plant-house (root module); lighthead; control unit. GAGING EQUIPMENT: gas analyzer (GAS) – designed by US personnel; pouch with substratum humidity sensors; system of environmental parameters measurements (EDS); power unit (PDS); PC (data collection and operation). EXPERIMENT CHRONICLE :  EXPERIMENT CHRONICLE EXPERIMENT CHRONICLE :  EXPERIMENT CHRONICLE Experiment results Creation of System of plant cultivation in space flight conditions Polished up conditions of plant growth and surrounding parameters control system There is a first wheat cultivation in space flight, plants has passed the total circle of its biological conditions Principal investigator: Institute of Biomedical Problems (Russia) Greenhouse “Light”:  Greenhouse “Light” Sprouts of “Apogee” wheat Results and analysis:  Results and analysis Slide7:  Problems: Station close volume factor could make negative influence on plants development. Goal for the future – to organize sufficient environmental control. Results and analysis Slide8:  Special direction of biological researches is a studying of possibility of the total cycle of plants development under space flight conditions. There is greenhouse which is called LADA on-board ISS. Its’ goal to grow up small number of plants, which could be added to crew’s food. These are salads in general (Pekinese cabbage, etc). Optimal conditions of their growing are working out. Estimated that big greenhouse will be delivered to ISS. This greenhouse will permanently work and crews will have fresh salads on lunch. Final goal of these studies on plants and domestic animals growing should be creation of bio-technical life support system. Plants, besides their food value, will produce oxygen, will absorb carbonic acid thereby will partially renew atmospheric balance of space station. SCIENTIFIC RESEARCHES ON THE ISS RUSSIAN SEGMENT BIO_MEDICAL RESEARCHES AND EXPERIIMENTS EXPERIMENT “PLANT-2” Scientific Advisor: Sytchev V.N.:  SCIENTIFIC RESEARCHES ON THE ISS RUSSIAN SEGMENT BIO_MEDICAL RESEARCHES AND EXPERIIMENTS EXPERIMENT “PLANT-2” Scientific Advisor: Sytchev V.N. Goal: Realization of researches to solve questions of fundamental biology and optimization of plants cultivation procedures for future greenhouses as a part of prospective space life support systems. Objectives: Assembling and preparation of equipment to perform experiment. Study of features of greenhouse LADA plant unit water-air condition under space flight conditions. Study of cultivation technology of vegetables (Midzuna salad, Micro-Tom tiny tomatoes, tiny (red) pea) as applied to regular greenhouse units. Study of space flight factors on growth and development of plants, which are prospective for usage in space vitaminous conservatories. Study of plants germinating and vital ability. Study of plants development phenology. Study of plants reproductive function and getting of the second generation of space seed. Study of chemistry of plants and seed, grown in microgravity, to determine the percentage of nitrogenous compounds in vegetative biomass. Determination of ethylene concentration in ISS Russian segment atmosphere. Expected results: Evaluation of productive characteristics of legumes and leaf vegetables in microgravity, perfect of agrotechnical methods to advance technologies of close ecological life support system onboard of space vehicles. Scientific equipment: 1.Greenhouse “LADA”: - Control unit; - Lighthead; - Plant growing chamber; - Root module; - Water container. As a modular system Greenhouse “LADA” provides maximum of flexibility, its dimensions are four time less than dimensions of Greenhouse “Light” which was used onboard MIR Space Station. 2.Pouch “Outfits”. Used equipment: - Water container; - Intake SVO-3V; - Camcorder SONY DVCam to register crew activity with Greenhouse. Consumption: Pouch “Plants” - to return plants samples to Earth. Video tape.   :  Scientific equipment: 1.Greenhouse “LADA”: - Control unit; - Lighthead; - Plant growing chamber; - Root module; - Water container. As a modular system Greenhouse “LADA” provides maximum of flexibility, its dimensions are four time less than dimensions of Greenhouse “Light” which was used onboard MIR Space Station. 2.Pouch “Outfits”. Used equipment: - Water container; - Intake SVO-3V; - Camcorder SONY DVCam to register crew activity with Greenhouse. Consumption: Pouch “Plants” - to return plants samples to Earth. Video tape.   Slide12:  Greenhouse “LADA” - Control unit; - Lighthead; - Plants growing chamber; - Root-module

Add a comment

Related presentations

Related pages

Mir (Raumstation) – Wikipedia

Raumstation Mir; Mir im Erdorbit: Einsatzdaten; Start: (Basismodul) 19. ... Teile der Mir zum Aufbau der ISS zu verwenden, wurde von US-amerikanischer ...
Read more

ISS | Internationale Raumstation | Mir

ISS als Vorbild der Mir ISS. Allgemeines Die Internationale Raumstation (International Space Station) ISS wird seit 1998 gebaut. Sie soll im Jahr 2010 ...
Read more

Internationale Raumstation – Wikipedia

Die Internationale Raumstation (englisch International Space Station, kurz ISS) ... Wie die russische Raumstation Mir ist die ISS modular aufgebaut.
Read more

space station Mir - NASA

The space station Mir became a legend in its own time reflecting ... Although Mir was gone by early 2001 and the International Space Station (ISS) ...
Read more

Mir - Wikipedia

Mir seen from Space Shuttle ... coffee and fruit juices, but, unlike the ISS, the station also had a supply of cognac and vodka for special occasions.
Read more

Aktuelle Position der ISS

Die aktuelle Position der ISS und ihre Bodenspur. Kontakt | English. Aktuelle Position der ISS Wo ist die Internationale Raumstation gerade? ...
Read more

Raumstation Mir - Raumfahrer.net Portal

Allerdings belegen die vielen gemeisterten Pannenserien an Bord der Mir auch, dass man beim Ausbau der ISS und ihrem Betrieb ebenfalls nicht auf Russland ...
Read more

ISS Beobachtung

Lokalisierte Liste der sichtbaren Überflüge der Internationalen Raumstation. Wann Sie die ISS von Ihrem Standort aus beobachten können.
Read more

DLR_next - „Fliegende Webcam“ auf der ISS

Wann die ISS welche Stadt überfliegt, erfährst du auf dieser Seite mit Angaben zu vielen Städten in ganz Deutschland.
Read more

DLR_next - Live die ISS sehen!

Die Internationale Raumstation ISS ist sicher eines der faszinierendsten Themen der Raumfahrt. Für uns auf der Erde scheint sie unendlich weit weg zu sein.
Read more