ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

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A re-assessment of focal depth distributions in southern Iran, the Tien Shan and northern India: do earthquakes really occur in the continental mantle? (2000)

A. Maggi ; J. A. Jackson ; K. Priestley ; [et al.]

In: Geophys. J. Int., San Francisco, Pergamon, vol. 143, no. 3, pp. 629-661, pp. L15303, (ISSN: 1340-4202)

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Publication Date: 2000

Keywords: Hypocentral depth ; CRUST ; earth mantle ; Seismology ; Rheology ; Lithosphere ; GJI

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BIBLIOGRAPHY SEISMOLOGY

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Backazimuth estimation reliability using surface wave polarization (2004)

G. E. Baker ; J. L. Stevens

In: Geophys. Res. Lett., Washington D.C., Bundesanstalt für Geowissenschaften und Rohstoffe, vol. 31, no. 9, pp. 1-4, pp. L09611

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Publication Date: 2004

Description: Backazimuth estimates derived from surface wave polarization can be used to test association of an observed surface wave with a seismic event. However, commonly used techniques for estimating the backazimuth are subject to a number of errors and are often inaccurate. We evaluate the performance of a new algorithm for determining Rayleigh wave propagation direction from the cross-correlation of the horizontal and Hilbert transformed vertical seismograms. This proves to be more accurate and much less error-prone than current automatic processing procedures, and the cross-correlation value provides a good measure of the reliability of the backazimuth estimate. Consequently, the new algorithm will permit more reliable event association at a lower magnitude threshold.

Keywords: Horizontal to vertical spectral ratio ; Nakamura ; Spectrum ; NOISE ; Site amplification ; Surface waves ; Polarization ; Rayleigh waves ; Correlation ; Hilbert transform ; 7200 ; Seismology ; 7219 ; Seismology: ; Nuclear ; explosion ; seismology ; 7255 ; Surface ; waves ; and ; free ; oscillations ; GRL

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BIBLIOGRAPHY SEISMOLOGY

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Grouted sediment slices show signs of earthquake shaking (2001)

B. F. Atwater ; K. S. Burrell ; V. M. Cisternas ; [et al.]

In: Eos Trans. AGU, Minsk, Elsevier Scientific Publishing Company, vol. 82, no. 49, pp. 603, pp. B12308

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Publication Date: 2001

Keywords: paleo ; Seismology ; Geol. aspects ; 7221 ; Seismology ; Paleoseismology ; 1829 ; Hydrology ; Groundwater ; hydrology ; 7294 ; Instruments ; and ; techniques

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BIBLIOGRAPHY SEISMOLOGY

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Source-dependent frequency content of ultrashallow seismic reflection data (2000)

G. S. Baker ; D. W. Steeples ; C. Schmeissner ; [et al.]

In: Bull. Seism. Soc. Am., Washington D.C., Bundesanstalt für Geowissenschaften und Rohstoffe, vol. 90, no. 2, pp. 494-499, pp. L09611

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Publication Date: 2000

Keywords: Seismology ; Seismics (controlled source seismology) ; Spectrum ; Source ; BSSA

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Stability of coda Q in the region of Parkfield, California: View from the U.S. Geological Survey Parkfield Dense Seismograph Array (1995)

M. Hellweg ; P. Spudich ; J. B. Fletcher ; [et al.]

In: J. Geophys. Res., Luxembourg, Conseil de l'Europe, vol. 100, no. 5379, pp. 2089-2102, pp. 1484, (ISSN 0343-5164)

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Publication Date: 1995

Keywords: Quality factor ; Seismology ; Earthquake precursor: prediction research ; JGR

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BIBLIOGRAPHY SEISMOLOGY

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Standards Development Activities at White Sands Test Facility (2003)

Beeson, H. D. ; Baker, D. L. ; Woods, S. S. ; [et al.]

In: CASI

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Publication Date: 2018-06-12

Description: The development of standards and standard activities at the JSC White Sands Test Facility (WSTF) has been expanded to include the transfer of technology and standards to voluntary consensus organizations in five technical areas of importance to NASA. This effort is in direct response to the National Technology Transfer Act designed to accelerate transfer of technology to industry and promote government-industry partnerships. Technology transfer is especially important for WSTF, whose longterm mission has been to develop and provide vital propellant safety and hazards information to aerospace designers, operations personnel, and safety personnel. Meeting this mission is being accomplished through the preparation of consensus guidelines and standards, propellant hazards analysis protocols, and safety courses for the propellant use of hydrogen, oxygen, and hypergols, as well as the design and inspection of spacecraft pressure vessels and the use of pyrovalves in spacecraft propulsion systems. The overall WSTF technology transfer program is described and the current status of technology transfer activities are summarized.

Keywords: Propellants and Fuels

Type: 5th Conference on Aerospace Materials, Processes, and Environmental Technology; NASA/CP-2003-212931

Format: application/pdf

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Microcalorimetric Measurements of Hydrogen Peroxide Stability (1999)

Hornung, Steven D. ; Davis, Dennis D. ; Baker, Dave L.

In: Other Sources

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Publication Date: 2019-07-17

Description: Recent interest in propellants with nontoxic reaction products has led to a resurgence of interest in hydrogen peroxide for various propellant applications. Because hydrogen peroxide is sensitive to contaminants and materials interactions, stability and shelf life are issues. A relatively new, ultrasensitive heat measurement technique, isothermal microcalorimetry, is being used at the White Sands Test Facility to monitor the decomposition of hydrogen peroxide at near ambient temperatures. Isothermal microcalorimetry measures the beat flow from a reaction vessel into a surrounding heat sink. In these applications, microcalorimetry is approximately 1,000 times more sensitive than accelerating rate calorimetry or differential scanning calorimetry for measuring thermal events. Experimental procedures have been developed for the microcalorimetric measurement of the ultra-small beat effects caused by incompatible interactions of hydrogen peroxide. The decomposition rates of hydrogen peroxide at the picomole/sec/gram level have been measured showing the effects of stabilizers and peroxide concentration. Typical measurements are carried out at 40 C over a 24-hour period, This paper describes a method for the conversion of the heat flow measurements to chemical reaction rates based on thermochemical considerations. The reaction rates are used in a study of the effects of stabilizer levels on the decomposition of propellant grade hydrogen peroxide.

Keywords: Propellants and Fuels

Type: Hydrogen Peroxide Propulsion; Nov 07, 1999 - Nov 10, 1999; West Lafayette, IN; United States

Format: text

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Hydrogen Peroxide - Material Compatibility Studied by Microcalorimetry (2003)

Popp, Christopher G. ; Baker, David ; Homung, Steven D. ; [et al.]

In: CASI

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Publication Date: 2019-08-13

Description: Environmental and toxicity concerns with current hypergolic propellants have led to a renewed interest in propellant grade hydrogen peroxide (HP) for propellant applications. Storability and stability has always been an issue with HP. Contamination or contact of HP with metallic surfaces may cause decomposition, which can result in the evolution of heat and gas leading to increased pressure or thermal hazards. The NASA Johnson Space Center White Sands Test Facility has developed a technique to monitor the decompositions of hydrogen peroxide at temperatures ranging from 25 to 60 C. Using isothermal microcalorimetry we have measured decomposition rates at the picomole/s/g level showing the catalytic effects of materials of construction. In this paper we will present the results of testing with Class 1 and 2 materials in 90 percent hydrogen peroxide.

Keywords: Propellants and Fuels

Type: JSC-CN-2366 , JSC-CN-7793 , 31st JANNAF PDCS; Mar 24, 2003 - Mar 27, 2003; Columbia, MD; United States|20th S and EPS Joint Meeting; Mar 24, 2003 - Mar 27, 2003; Columbia, MD; United States

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Recent Developments in Chemically Reactive Sensors for Propellants (1999)

Mast, Dion J. ; Davis, Dennis D. ; Baker, David L. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-13

Description: Propellant system leaks can pose a significant hazard in aerospace operations. For example, a leak in the hydrazine supply system of the shuttle auxiliary power unit (APU) has resulted in hydrazine ignition and fire in the aft compartment of the shuttle. Sensors indicating the location of a leak could provide valuable information required for operational decisions. WSTF has developed a small, single-use sensor for detection of propellant leaks. The sensor is composed of a thermistor bead coated with a substance which is chemically reactive with the propellant. The reactive thermistor is one of a pair of closely located thermistors, the other being a reference. On exposure to the propellant, the reactive coating responds exothermically to it and increases the temperature of the coated-thermistor by several degrees. The temperature rise is sensed by a resistive bridge circuit, and an alarm is registered by data acquisition software. The concept is general and has been applied to sensors for hydrazine, monomethylhydrazine, unsym-dimethylhydrazine, ammonia, hydrogen peroxide, ethanol, and dinitrogen tetroxide. Responses of these sensors to humidity, propellant concentration, distance from the liquid leak, and ambient pressure levels arc presented. A multi-use sensor has also been developed for hydrazine based on its catalytic reactivity with noble metals.

Keywords: Propellants and Fuels

Type: 49th JANNEF Propulsion Meeting; Dec 15, 1999 - Dec 17, 1999; Tucson, AZ; United States

Format: text

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Hypergolic Propellant Safety Course (2000)

Rathgeber, Kurt A. ; Hornung, Stephen D. ; Fries, Joseph ; [et al.]

In: Other Sources

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Publication Date: 2019-08-13

Description: Under the sponsorship of the NASA Safety Training Center at the Johnson Space Center, a hypergolic propellant safety course has been developed. This is a 2-day course on guidelines for hypergolic propellant system design, materials selection, operations, storage, and transportation. Recognizing that numerous fuels and oxidizers can be hypergolic, this course is specific to the hydrazine family of fuels and nitrogen tetroxide and its variants. The objectives of the course are to enable the student to identify and evaluate the hazards of hypergolic propellants, and to understand the methods for controlling those hazards and responding to emergencies. The course covers properties and hazards of the hydrazines and oxidizers; design and operations in hypergolic facilities; materials selection for use in hypergol systems; storage vessels, piping, and component considerations; hypergol detection; fire fighting practices; operating and transportation principles and procedures; and emergency practices and considerations. A hazards analysis methodology is presented. Numerous references are provided and the applicability of certain regulatory documents is discussed. A brief overview of other propellants, including hydrogen peroxide, is given at the end of the course.

Keywords: Propellants and Fuels

Type: 18th Safety and Environmental Protection Subcommittee Joint Meeting; May 08, 2000 - May 12, 2000; Cocoa Beach, FL; United States

Format: text

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