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Application of dipmeter data in structural interpretation, Niger Delta (1992)

J. T. Adams ; J. K. Ayodele ; J. Bedford ; [et al.]

Geological Society, London & Blackwell Scientific Publications

In: Geological Applications of Wireline Logs II, London, Geological Society, London & Blackwell Scientific Publications, vol. 65, pp. 247-264

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Publication Date: 1992

Keywords: Borehole geophys. ; DIP ; Geol. aspects ; 16 ; (Structural ; Geology) ; 20 ; (Geophysics, ; Applied) ; Africa ; Akaso ; Field ; borehole ; breakouts ; caliper ; logging ; Cawthorne ; Channel ; Field ; dipmeter ; logging ; extension ; tectonics ; faults ; gamma-ray ; methods ; interpretation ; Niger ; Delta ; Nigeria ; oil ; and ; gas ; fields ; stress ; structural ; geology ; tectonics ; three-dimensional ; models ; well ; logs ; well-logging ; West ; Africa

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BIBLIOGRAPHY SEISMOLOGY

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Supplementary calibration test of the tip-aerodynamics- and acoustics-test pressure transducers (1986)

Watts, M. E.

In: CASI

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Publication Date: 2019-06-28

Description: A calibration test is described that was performed to supplement the normal calibration of the 188 pressure transducers used in the Tip Aerodynamics and Acoustics Test. This calibration led to the identification of 15 transducers which had a slope change of greater than 7% from the initial calibration. The calibration procedure is described and the results presented. The effect of the slope changes on the pressure distributions are described, followed by a method to compensate for these changes.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: NASA-TM-88312 , A-86273 , NAS 1.15:88312

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3

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Advanced Space Suit PLSS 2.0 Cooling Loop Evaluation and PLSS 2.5 Recommendations (2016)

Quinn, Greg ; Campbell, Colin ; Westheimer, Dave ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: From 2012 to 2015 The NASA/JSC AdvSS (Advanced Space Suit) PLSS (Primary Life Support Subsystem) team, with support from UTC Aerospace Systems, performed the build-up, packaging and testing of PLSS 2.0. A key aspect of that testing was the evaluation of the long-term health of the water cooling circuit and the interfacing components. Intermittent and end-of-test water, residue and hardware analyses provided valuable information on the status of the water cooling circuit, and the approaches that would be necessary to enhance water cooling circuit health in the future. The evaluated data has been consolidated, interpreted and woven into an action plan for the maintenance of water cooling circuit health for the planned FY (fiscal year) 2016 through FY 2018 PLSS 2.5 testing. This paper provides an overview of the PLSS 2.0 water cooling circuit findings and the associated steps to be taken in that regard for the PLSS 2.5 testing.

Keywords: Man/System Technology and Life Support

Type: JSC-CN-34837 , International Conference on Environmental Systems; Jul 10, 2016 - Jul 14, 2016; Vienna; Austria

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NASA TECHNICAL REPORTS

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4

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Space Suit Portable Life Support System (PLSS) 2.0 Unmanned Vacuum Environment Testing (2016)

Watts, Carly ; Vogel, Matthew

In: CASI

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Publication Date: 2019-07-19

Description: For the first time in more than 30 years, an advanced space suit Portable Life Support System (PLSS) design was operated inside a vacuum chamber representative of the flight operating environment. The test article, PLSS 2.0, was the second system-level integrated prototype of the advanced PLSS design, following the PLSS 1.0 Breadboard that was developed and tested throughout 2011. Whereas PLSS 1.0 included five technology development components with the balance the system simulated using commercial-off-the-shelf items, PLSS 2.0 featured first generation or later prototypes for all components less instrumentation, tubing and fittings. Developed throughout 2012, PLSS 2.0 was the first attempt to package the system into a flight-like representative volume. PLSS 2.0 testing included an extensive functional evaluation known as Pre-Installation Acceptance (PIA) testing, Human-in-the-Loop testing in which the PLSS 2.0 prototype was integrated via umbilicals to a manned prototype space suit for 19 two-hour simulated EVAs, and unmanned vacuum environment testing. Unmanned vacuum environment testing took place from 1/9/15-7/9/15 with PLSS 2.0 located inside a vacuum chamber. Test sequences included performance mapping of several components, carbon dioxide removal evaluations at simulated intravehicular activity (IVA) conditions, a regulator pressure schedule assessment, and culminated with 25 simulated extravehicular activities (EVAs). During the unmanned vacuum environment test series, PLSS 2.0 accumulated 378 hours of integrated testing including 291 hours of operation in a vacuum environment and 199 hours of simulated EVA time. The PLSS prototype performed nominally throughout the test series, with two notable exceptions including a pump failure and a Spacesuit Water Membrane Evaporator (SWME) leak, for which post-test failure investigations were performed. In addition to generating an extensive database of PLSS 2.0 performance data, achievements included requirements and operational concepts verification, as well as demonstration of vehicular interfaces, consumables sizing and recharge, and water quality control.

Keywords: Man/System Technology and Life Support

Type: JSC-CN-34719 , International Conference on Environmental Systems (ICES 2016); Jul 10, 2016 - Jul 14, 2016; Vienna; Austria

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Experimentally Determined Heat Transfer Coefficients for Spacesuit Liquid Cooled Garments (2015)

Vonau, Walt ; Bue, Grant ; Westheimer, David ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: A Human-In-The-Loop (HITL) Portable Life Support System 2.0 (PLSS 2.0) test has been conducted at NASA Johnson Space Center in the PLSS Development Laboratory from October 27, 2014 to December 19, 2014. These closed-loop tests of the PLSS 2.0 system integrated with human subjects in the Mark III Suit at 3.7 psi to 4.3 psi above ambient pressure performing treadmill exercise at various metabolic rates from standing rest to 3000 BTU/hr (880 W). The bulk of the PLSS 2.0 was at ambient pressure but effluent water vapor from the Spacesuit Water Membrane Evaporator (SWME) and the Auxiliary Membrane Evaporator (Mini-ME), and effluent carbon dioxide from the Rapid Cycle Amine (RCA) were ported to vacuum to test performance of these components in flight-like conditions. One of the objectives of this test was to determine the heat transfer coefficient (UA) of the Liquid Cooling Garment (LCG). The UA, an important factor for modeling the heat rejection of an LCG, was determined in a variety of conditions by varying inlet water temperature, flowrate, and metabolic rate. Three LCG configurations were tested: the Extravehicular Mobility Unit (EMU) LCG, the Oceaneering Space Systems (OSS) LCG, and the OSS auxiliary LCG. Other factors influencing accurate UA determination, such as overall heat balance, LCG fit, and the skin temperature measurement, will also be discussed.

Keywords: Man/System Technology and Life Support

Type: JSC-CN-32602 , International Conference on Environmental Systems; Jul 12, 2015 - Jul 16, 2015; Bellevue, WA; United States

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NASA TECHNICAL REPORTS

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6

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Advanced Space Suit PLSS 2.0 Cooling Loop Evaluation and PLSS 2.5 Recommendations (2016)

Campbell, Colin ; Steele, John ; Makinen, Janice ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: From 2012 to 2015 The NASA/JSC AdvSS (Advanced Space Suit) PLSS (Portable Life Support Subsystem) team, with support from UTC Aerospace Systems, performed the build-up, packaging and testing of PLSS 2.0. One aspect of that testing was the evaluation of the long-term health of the water cooling circuit and the interfacing components. Periodic and end-of-test water, residue and hardware analyses provided valuable information on the status of the water cooling circuit, and the approaches that would be necessary to enhance water cooling circuit health in the future. The evaluated data has been consolidated, interpreted and woven into an action plan for the maintenance of water cooling circuit health for the planned FY (fiscal year) 2016 through FY 2018 PLSS 2.5 testing. This paper provides an overview of the PLSS 2.0 water cooling circuit findings and the associated steps to be taken in that regard for the PLSS 2.5.

Keywords: Man/System Technology and Life Support

Type: ICES-2016-[239] , JSC-CN-35447 , International Conference on Environmental Systems; Jul 10, 2016 - Jul 14, 2016; Vienna; Austria

Format: application/pdf

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NASA TECHNICAL REPORTS

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7

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Space Suit Portable Life Support System Test Bed (PLSS 1.0) Development and Testing (2012)

Vogel, Matthew ; Campbell, Colin ; Conger, Bruce ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A multi-year effort has been carried out at NASA-JSC to develop an advanced extra-vehicular activity Portable Life Support System (PLSS) design intended to further the current state of the art by increasing operational flexibility, reducing consumables, and increasing robustness. Previous efforts have focused on modeling and analyzing the advanced PLSS architecture, as well as developing key enabling technologies. Like the current International Space Station Extra-vehicular Mobility Unit PLSS, the advanced PLSS comprises three subsystems required to sustain the crew during extra-vehicular activity including the Thermal, Ventilation, and Oxygen Subsystems. This multi-year effort has culminated in the construction and operation of PLSS 1.0, a test bed that simulates full functionality of the advanced PLSS design. PLSS 1.0 integrates commercial off the shelf hardware with prototype technology development components, including the primary and secondary oxygen regulators, Ventilation Subsystem fan, Rapid Cycle Amine swingbed carbon dioxide and water vapor removal device, and Spacesuit Water Membrane Evaporator heat rejection device. The overall PLSS 1.0 test objective was to demonstrate the capability of the Advanced PLSS to provide key life support functions including suit pressure regulation, carbon dioxide and water vapor removal, thermal control and contingency purge operations. Supplying oxygen was not one of the specific life support functions because the PLSS 1.0 test was not oxygen rated. Nitrogen was used for the working gas. Additional test objectives were to confirm PLSS technology development components performance within an integrated test bed, identify unexpected system level interactions, and map the PLSS 1.0 performance with respect to key variables such as crewmember metabolic rate and suit pressure. Successful PLSS 1.0 testing completed 168 test points over 44 days of testing and produced a large database of test results that characterize system level and component performance. With the exception of several minor anomalies, the PLSS 1.0 test rig performed as expected; furthermore, many system responses trended in accordance with pre-test predictions.

Keywords: Man/System Technology and Life Support

Type: JSC-CN-26247 , 42nd International Conference on Environmental Systems; Jul 15, 2012 - Jul 19, 2012; San Diego, CA; United States

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NASA TECHNICAL REPORTS

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8

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Long Duration Testing of a Spacesuit Water Membrane Evaporator Prototype (2012)

Cox, Marlon ; Vogel, Matthew ; Colunga, Aaron ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Spacesuit Water Membrane Evaporator (SWME) is a heat-rejection device that is being developed to perform thermal control for advanced spacesuits. Cooling is achieved by circulating water from the liquid cooling garment (LCG) through hollow fibers (HoFi s), which are small hydrophobic tubes. Liquid water remains within the hydrophobic tubes, but water vapor is exhausted to space, thereby removing heat. A SWME test article was tested over the course of a year, for a total of 600 cumulative hours. In order to evaluate SWME tolerance to contamination due to constituents caused by distillation processes, these constituents were allowed to accumulate in the water as evaporation occurred. A test article was tested over the course of a year for a total of 600 cumulative hours. The heat rejection performance of the SWME degraded significantly--below 700 W, attributable to the accumulation of rust in the circulating loop and biofilm growth. Bubble elimination capability, a feature that was previously proven with SWME, was compromised during the test, most likely due to loss of hydrophobic properties of the hollow fibers. The utilization of water for heat rejection was shown not to be dependent on test article, life cycle, heat rejection rate, or freezing of the membranes.

Keywords: Man/System Technology and Life Support

Type: JSC-CN-25970 , 42nd International Conference of Environmental Systems (ICES2012); Jul 15, 2012 - Jul 19, 2012; San Diego, CA; United States

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9

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The predicted deviation from the Z-sq dependence of the ion chamber and the Cerenkov counter response on the HEAO-3 experiment (1981)

Watts, J. W. ; Eby, P. B. ; Derrickson, J. H.

In: Other Sources

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Publication Date: 2019-07-13

Description: The influence of the Mott cross section in producing a departure from a Z-sq dependence in the Heavy Nuclei Experiment instrument on board the HEAO-3 satellite is examined, along with the related problem of secondary electron energy transport through the instrument. A Monte Carlo method of electron transport and a modification of the Laulainen and Bichsel (1972) method were used to calculate energy deposition in the chamber, and corrections to the Cerenkov counter response were made. A maximum correction of a change of Z values of a -4 at Z equals 78 was found, and further calculations to determine the Mott cross sections for Z between 26-50 are indicated.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: International Cosmic Ray Conference; Jul 13, 1981 - Jul 25, 1981; Paris; France

Format: text

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Decision Support for Emergency Operations Centers (2005)

Harvey, Craig ; Watts, Zack ; Lawhead, Joel

In: CASI

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Publication Date: 2019-07-12

Description: The Flood Disaster Mitigation Decision Support System (DSS) is a computerized information system that allows regional emergency-operations government officials to make decisions regarding the dispatch of resources in response to flooding. The DSS implements a real-time model of inundation utilizing recently acquired lidar elevation data as well as real-time data from flood gauges, and other instruments within and upstream of an area that is or could become flooded. The DSS information is updated as new data become available. The model generates realtime maps of flooded areas and predicts flood crests at specified locations. The inundation maps are overlaid with information on population densities, property values, hazardous materials, evacuation routes, official contact information, and other information needed for emergency response. The program maintains a database and a Web portal through which real-time data from instrumentation are gathered into the database. Also included in the database is a geographic information system, from which the program obtains the overlay data for areas of interest as needed. The portal makes some portions of the database accessible to the public. Access to other portions of the database is restricted to government officials according to various levels of authorization. The Flood Disaster Mitigation DSS has been integrated into a larger DSS named REACT (Real-time Emergency Action Coordination Tool), which also provides emergency operations managers with data for any type of impact area such as floods, fires, bomb

Keywords: Man/System Technology and Life Support

Type: SSC-00206-1 , NASA Tech Briefs, June 2005; 15

Format: application/pdf

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NASA TECHNICAL REPORTS

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