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Electronic Resource

The influence of microclimatic conditions on potential photosynthesis ofUsnea sphacelata: A model (1989)

Bölter, Manfred ; Kappen, Ludger ; Meyer, Michael

Springer

Ecological research 4 (1989), S. 297-307

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ISSN: 1440-1703

Keywords: Antarctica ; Lichen activity ; Microclimate ; Modelling

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract At a boulder on a hill near Casey Station, Wilkes Land, sensors for light, temperature and humidity were installed facing the four cardinal directions. The measurements lasted for about two months of the summer season 1985/86. The data recording was carried out at intervals of 6 minutes for all probes by automatic recording instruments. Data analysis was carried out with special regard to the biological effects of the parameters analyzed. These data of the microclimatic features taken from its original place of growth were used to a regression model of potential photosynthetic activity ofUsnea sphacelata, which is a characteristic species of this area. Although the individual time courses of the above mentioned parameters show long periods of favourable conditions for possible growth and metabolic processes, the combined analysis of these variables considering threshold values for metabolism shortens these time spans drastically. Thus, cross relationships within the physical descriptors and their effects on the actual values of photosynthesis as well as respiration become evident. They are illustrated by the results of models on photosynthesis and respiration ofU. sphacelata regarding the different cardinal directions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02348450

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Paper (German National Licenses)

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Mastering Cryogenic Propellants (2014)

Chato, David J. ; Plachta, David W. ; Van Dresar, Neil T. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Propellants and Fuels

Type: GRC-E-DAA-TN16903 , 2014 Proplusion &amp; Energy Forum; Jul 28, 2014 - Jul 30, 2014; Cleveland, Ohio; United States

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The Cryogenic Propellant Storage and Transfer Technology Demonstration Mission: (2014)

Ginty, Carol A. ; Taylor, William J. ; Melis, Matthew E. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This presentation provides an overview of the Cryogenic Propellant Storage and Transfer (CPST) Mission from formulation through Systems Requirements Review and into preparation for Preliminary Design Review. Accomplishments of the technology maturation phase of the project are included. The presentation then summarizes the transition, due to Agency budget constraints, of CPST from a flight project into a ground project titled evolvable Cryogenics (eCryo).

Keywords: Propellants and Fuels

Type: GRC-E-DAA-TN16864 , Propulsion and Energy Forum 2014; Jul 28, 2014 - Jul 30, 2014; Cleveland, OH; United States

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Testing of a Liquid Oxygen/Liquid Methane Reaction Control Thruster in a New Altitude Rocket Engine Test Facility (2012)

Kleinhenz, Julie E. ; Marshall, William M. ; Arrington, Lynn A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A relocated rocket engine test facility, the Altitude Combustion Stand (ACS), was activated in 2009 at the NASA Glenn Research Center. This facility has the capability to test with a variety of propellants and up to a thrust level of 2000 lbf (8.9 kN) with precise measurement of propellant conditions, propellant flow rates, thrust and altitude conditions. These measurements enable accurate determination of a thruster and/or nozzle s altitude performance for both technology development and flight qualification purposes. In addition the facility was designed to enable efficient test operations to control costs for technology and advanced development projects. A liquid oxygen-liquid methane technology development test program was conducted in the ACS from the fall of 2009 to the fall of 2010. Three test phases were conducted investigating different operational modes and in addition, the project required the complexity of controlling propellant inlet temperatures over an extremely wide range. Despite the challenges of a unique propellant (liquid methane) and wide operating conditions, the facility performed well and delivered up to 24 hot fire tests in a single test day. The resulting data validated the feasibility of utilizing this propellant combination for future deep space applications.

Keywords: Propellants and Fuels

Type: NASA/TM-2012-217643 , E-18201 , E-18201-1 , Space Propulsion 2012; May 07, 2012 - May 10, 2012; Bordeaux; France

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Cryogenic Propellant Storage and Transfer Technology Demonstration For Long Duration In-Space Missions (2012)

McRight, Patrick S. ; Motil, Susan M. ; Taylor, William J. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The high specific impulse of cryogenic propellants can provide a significant performance advantage for in-space transfer vehicles. The upper stages of the Saturn V and various commercial expendable launch vehicles have used liquid oxygen and liquid hydrogen propellants; however, the application of cryogenic propellants has been limited to relatively short duration missions due to the propensity of cryogens to absorb environmental heat resulting in fluid losses. Utilizing advanced cryogenic propellant technologies can enable the efficient use of high performance propellants for long duration missions. Crewed mission architectures for beyond low Earth orbit exploration can significantly benefit from this capability by developing realistic launch spacing for multiple launch missions, by prepositioning stages and by staging propellants at an in-space depot. The National Aeronautics and Space Administration through the Office of the Chief Technologist is formulating a Cryogenic Propellant Storage and Transfer Technology Demonstration Mission to mitigate the technical and programmatic risks of infusing these advanced technologies into the development of future cryogenic propellant stages or in-space propellant depots. NASA is seeking an innovative path for human space exploration, which strengthens the capability to extend human and robotic presence throughout the solar system. This mission will test and validate key cryogenic technological capabilities and has the objectives of demonstrating advanced thermal control technologies to minimize propellant loss during loiter, demonstrating robust operation in a microgravity environment, and demonstrating efficient propellant transfer on orbit. The status of the demonstration mission concept development, technology demonstration planning and technology maturation activities in preparation for flight system development are described.

Keywords: Propellants and Fuels

Type: NASA/TM-2012-217642 , E-18200 , E-18200 , Space Propulsion 2012; May 07, 2012 - May 10, 2012; Bordeaux; France

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Liquid Oxygen/Liquid Methane Propulsion and Cryogenic Advanced Development (2011)

Wadel, Mary F. ; Meyer, Michael L. ; Smith, Timothy D. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Exploration Systems Architecture Study conducted by NASA in 2005 identified the liquid oxygen (LOx)/liquid methane (LCH4) propellant combination as a prime candidate for the Crew Exploration Vehicle Service Module propulsion and for later use for ascent stage propulsion of the lunar lander. Both the Crew Exploration Vehicle and Lunar Lander were part the Constellation architecture, which had the objective to provide global sustained lunar human exploration capability. From late 2005 through the end of 2010, NASA and industry matured advanced development designs for many components that could be employed in relatively high thrust, high delta velocity, pressure fed propulsion systems for these two applications. The major investments were in main engines, reaction control engines, and the devices needed for cryogenic fluid management such as screens, propellant management devices, thermodynamic vents, and mass gauges. Engine and thruster developments also included advanced high reliability low mass igniters. Extensive tests were successfully conducted for all of these elements. For the thrusters and engines, testing included sea level and altitude conditions. This advanced development provides a mature technology base for future liquid oxygen/liquid methane pressure fed space propulsion systems. This paper documents the design and test efforts along with resulting hardware and test results.

Keywords: Propellants and Fuels

Type: IAC-11-C4.1.5 , E-17931 , E-17931-1 , 62nd International Aeronautical Congress; Oct 03, 2011 - Oct 07, 2011; Cape Town; South Africa

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Concept Design of Cryogenic Propellant Storage and Transfer for Space Exploration (2012)

Motil, Susan M. ; Meyer, Michael L. ; Free, James M. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Propellants and Fuels

Type: E-18444-1 , 63rd International Astronautical Congress; Oct 02, 2012 - Oct 05, 2012; Naples; Italy

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Concept Design of Cryogenic Propellant Storage and Transfer for Space Exploration (2012)

Meyer, Michael L. ; taylor, William J. ; Motil, Susan M. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: NASA is in the planning and investigation process of developing innovative paths for human space exploration that strengthen the capability to extend human and robotic presence beyond low Earth orbit and throughout the solar system. NASA is establishing the foundations to enable humans to safely reach multiple potential destinations, including the Moon, asteroids, Lagrange points, and Mars and its environs through technology and capability development. To achieve access to these destinations within a reasonable flight time will require the use of high performance cryogenic propulsion systems. Therefore NASA is examining mission concepts for a Cryogenic Propellant Storage and Transfer (CPST) Flight Demonstration which will test and validate key capabilities and technologies required for future exploration elements such as large cryogenic propulsion stages and propellant depots. The CPST project will perform key ground testing in fiscal year 2012 and execute project formulation and implementation leading to a flight demonstration in 2017.

Keywords: Propellants and Fuels

Type: IAC-12, D3, 3, 2, x14163 , E-18444 , International Astronautical Congress; Oct 01, 2012 - Oct 05, 2012; Naples; Italy

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Evaluation of Heat Transfer and Thermal Stability of Supercritical JP-7 Fuel (1997)

Edwards, Tim ; Eitman, David A. ; Meyer, Michael L. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A series of electrically heated tube experiments was conducted to investigate the potential of JP-7 as a coolant under conditions relevant to a Mach 8 propulsion system. The heat transfer capabilities, carbon deposition, and material compatibility of JP-7 at surface temperatures up to 1700 F (927 C) were tested in 0.125 in. diameter tubes of 304 SS, Inconel 617, Haynes 188, Haynes 230, and 50150 Moly-Rhenium. The heat transfer to the coolant was modeled well by a Dittus-Boelter correlation at lower heat fluxes. At higher heat fluxes, audible instabilities were observed and corresponded to a significant enhancement in the coolant heat transfer. The carbon deposition rates in these tests were comparable to those in previous experiments at lower heat fluxes and much longer residence times. This result suggests that alternative paths of the deposition mechanism may be enhanced under high heat flux test conditions. Microscopic investigation of the post test tubes indicated that there was a significant layer of ordered carbon deposits that had not been seen in the tests at lower heat flux.

Keywords: Propellants and Fuels

Type: NASA-TM-107485 , NAS 1.15:107485 , E-10781 , AIAA Paper 97-3041 , Joint Propulsion Conference and Exhibit; Jul 06, 1997 - Jul 09, 1997; Seattle, WA; United States

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Study Task for Determining the Effects of Boost-Phase Environments on Densified Propellants Thermal Conditions for Expendable Launch Vehicles (2002)

Haberbusch, Mark S. ; Meyer, Michael L.

In: CASI

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Publication Date: 2019-07-10

Description: A thermodynamic study has been conducted that investigated the effects of the boost-phase environment on densified propellant thermal conditions for expendable launch vehicles. Two thermodynamic models were developed and utilized to bound the expected thermodynamic conditions inside the cryogenic liquid hydrogen and oxygen propellant tanks of an Atlas IIAS/Centaur launch vehicle during the initial phases of flight. The ideal isentropic compression model was developed to predict minimum pressurant gas requirements. The thermal equilibrium model was developed to predict the maximum pressurant gas requirements. The models were modified to simulate the required flight tank pressure profiles through ramp pressurization, liquid expulsion, and tank venting. The transient parameters investigated were: liquid temperature, liquid level, and pressurant gas consumption. Several mission scenarios were analyzed using the thermodynamic models, and the results indicate that flying an Atlas IIAS launch vehicle with densified propellants is feasible and beneficial but may require some minor changes to the vehicle.

Keywords: Propellants and Fuels

Type: NASA/CR-2002-210808 , E-12715 , NAS 1.26:210808

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