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The use of mechanical alloying for the preparation of palladized magnesium bimetallic particles for the remediation of PCBs (2011)

Coutts, Janelle L. ; Devor, Robert W. ; Aitken, Brian ; [et al.]

Elsevier

In: Journal of Hazardous Materials. 2011; 192(3): 1380-1387. Published 2011 Sep 01. doi: 10.1016/j.jhazmat.2011.06.052.

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Publication Date: 2011-09-01

Print ISSN: 0304-3894

Electronic ISSN: 1873-3336

Topics: Chemistry and Pharmacology , Energy, Environment Protection, Nuclear Power Engineering , Technology

Published by Elsevier

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A Novel Method for Remediation of PCBs in Weathered Coatings (2006)

Aitken, Brian S. ; Quinn, Jacqueline W. ; Geiger, Cherie L. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Polychlorinated biphenyls (PCBs) are a group of synthetic aromatic compounds with the general formula C 12H1oCl that were historically used in industrial paints, caulking material and adhesives, as their properties enhanced structural integrity, reduced flammability and boosted antifungal properties. Although the United States Environmental Protection Agency (USEPA) has banned the manufacture of PCBs since 1979, they have been found in at least 500 of the 1,598 National Priorities List (Superfund) sites identified by the USEPA. Prior to the USEPA's ban on PCB production, PCBs were commonly used as additives in paints and asphalt-based adhesives that were subsequently applied to a variety of structures. Government facilities constructed as early as 1930 utilized PCB-containing binders or PCB-containing paints, which are now leaching into the environment and posing ecological and worker health concerns. To date, no definitive in situ, non-destructive method is available for the removal of PCBs found in weathered coatings or on painted structures/equipment. The research described in this paper involves the laboratory development and field-scale deployment of a new and innovative solution for the removal and destruction of PCBs found in painted structures or within the binding or caulking material on structures. The technology incorporates a Bimetallic Treatment System (BTS) that extracts and degrades only the PCBs found on the facilities, leaving the structure virtually unaltered.

Keywords: Chemistry and Materials (General)

Type: KSC-2006-080 , Fifth International Conference on Remediaton of Chlorinated and Recalcitrant Compounds; May 22, 2006 - May 25, 2006; Monterey, CA; United States

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Study of Sabatier Catalyst Performance for a Mars ISRU Propellant Production Plant (2019)

Petersen, Elspeth M. ; Devor, Robert W. ; Franco, Carolina ; [et al.]

In: CASI

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Publication Date: 2019-07-17

Description: NASA is currently developing technologies for use in the field of in-situ resource utilization (ISRU). One of the technologies being advanced is the Sabatier, or methanation, reactor which converts carbon dioxide and hydrogen into methane gas and water at high temperatures. This paper discusses the catalyst life and performance issues for these reactors that would be expected on Mars and describes the test methods employed and observed results. The various catalysts were tested in their capacity for the continuous production of methane gas via the Sabatier reaction and the possible effects of launch vibration loads, exposure to liquid water, particulate contamination, and chemical contamination to the overall observed reaction efficacy of the catalysts evaluated.

Keywords: Lunar and Planetary Science and Exploration

Type: KSC-E-DAA-TN68551 , International Conference on Environmental Systems (ICES) 2019; Jul 07, 2019 - Jul 11, 2019; Boston, MA; United States

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4

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Study of Sabatier Catalyst Performance for a Mars ISRU Propellant Production Plant (2019)

Hintze, Paul E. ; Snyder, Sarah J. ; Franco, Carolina ; [et al.]

In: CASI

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Publication Date: 2019-07-27

Description: NASA is currently developing technologies for use in the field of in-situ resource utilization (ISRU). One of the technologies being advanced is the Sabatier, or methanation, reactor which converts carbon dioxide and hydrogen into methane gas and water at high temperatures. This paper discusses the catalyst life and performance issues for these reactors that would be expected on Mars and describes the test methods employed and observed results. The various catalysts were tested in their capacity for the continuous production of methane gas via the Sabatier reaction and the possible effects of launch vibration loads, exposure to liquid water, particulate contamination, and chemical contamination to the overall observed reaction efficacy of the catalysts evaluated.

Keywords: Lunar and Planetary Science and Exploration

Type: ICES 2019-077 , KSC-E-DAA-TN70499 , International Conference on Environmental Systems; Jul 07, 2019 - Jul 11, 2019; Boston, MA; United States

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5

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PCBs in Painted Structures and Adhesives and a Novel Approach to Remediation (2007)

Brooks, Kathleen B. ; Quinn, Jacqueline W. ; Aitken, Brian S. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: No abstract available

Keywords: Nonmetallic Materials

Type: KSC-2007-110

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Familiarization and Detection of Green Monopropellants (2015)

Coan, Mary R. ; Bauer, Brint M. ; Devor, Robert W. ; [et al.]

In: CASI

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Publication Date: 2019-08-13

Description: No abstract available

Keywords: Propellants and Fuels; Chemistry and Materials (General)

Type: KSC-E-DAA-TN25114 , Green Monopropellant Alternatives to Hydrazine Technical Interchange Meeting (GMAH TIM); Aug 04, 2015 - Aug 05, 2015; Huntsville, AL; United States

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Self-Cleaning Boudouard Reactor for Full Oxygen Recovery from Carbon Dioxide (2016)

Hintze, Paul E. ; Lunn, Griffin M. ; Coutts, Janelle ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Oxygen recovery from respiratory carbon dioxide is an important aspect of human spaceflight. Methods exist to sequester the carbon dioxide, but production of oxygen needs further development. The current International Space Station Carbon Dioxide Reduction System (CRS) uses the Sabatier reaction to produce water (and ultimately breathing air). Oxygen recovery is limited to 50 because half of the hydrogen used in the Sabatier reactor is lost as methane, which is vented overboard. The Bosch reaction, which converts carbon dioxide to oxygen and solid carbon is capable of recovering all the oxygen from carbon dioxide, and is the only real alternative to the Sabatier reaction. However, the last reaction in the cycle, the Boudouard reaction, produces solid carbon and the resulting carbon buildup will eventually foul the nickel or iron catalyst, reducing reactor life and increasing consumables. To minimize this fouling and increase efficiency, a number of self-cleaning catalyst designs have been created. This paper will describe recent results evaluating one of the designs.

Keywords: Man/System Technology and Life Support

Type: KSC-E-DAA-TN33655 , International Conference on Environmental Systems (ICES) 2016; Jul 10, 2016 - Jul 14, 2016; Vienna; Austria

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Self-Cleaning Boudouard Reactor for Full Oxygen Recovery from Carbon Dioxide (2016)

Hintze, Paul E. ; Lunn, Griffin M. ; Gibson, Tracy L. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Oxygen recovery from respiratory carbon dioxide is an important aspect of human spaceflight. Methods exist to sequester the carbon dioxide, but production of oxygen needs further development. The current International Space Station Carbon Dioxide Reduction System (CRS) uses the Sabatier reaction to produce water (and ultimately breathing air). Oxygen recovery is limited to 50% because half of the hydrogen used in the Sabatier reactor is lost as methane which is vented overboard. The Bosch reaction, which converts carbon dioxide to oxygen and solid carbon, is capable of recovering all the oxygen from carbon dioxide, and it is a promising alternative to the Sabatier reaction. However, the last reaction in the cycle, the Boudouard reaction, produces solid carbon, and the resulting carbon buildup eventually fouls the catalyst, reducing reactor life and increasing consumables. To minimize this fouling and increase efficiency, a number of self-cleaning catalyst designs have been created. This paper will describe recent results evaluating one of the designs.

Keywords: Man/System Technology and Life Support

Type: ICES-2016-287 , KSC-E-DAA-TN32273 , International Conference on Environmental Systems (ICES 2016); Jul 10, 2016 - Jul 14, 2016; Vienna; Austria

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9

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Visible-Light-Responsive Photocatalysis: Ag-Doped TiO2 Catalyst Development and Reactor Design Testing (2016)

Meier, Anne ; Hintze, Paul E. ; Devor, Robert W. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: In recent years, the alteration of titanium dioxide to become visible-light-responsive (VLR) has been a major focus in the field of photocatalysis. Currently, bare titanium dioxide requires ultraviolet light for activation due to its band gap energy of 3.2 eV. Hg-vapor fluorescent light sources are used in photocatalytic oxidation (PCO) reactors to provide adequate levels of ultraviolet light for catalyst activation; these mercury-containing lamps, however, hinder the use of this PCO technology in a spaceflight environment due to concerns over crew Hg exposure. VLR-TiO2 would allow for use of ambient visible solar radiation or highly efficient visible wavelength LEDs, both of which would make PCO approaches more efficient, flexible, economical, and safe. Over the past three years, Kennedy Space Center has developed a VLR Ag-doped TiO2 catalyst with a band gap of 2.72 eV and promising photocatalytic activity. Catalyst immobilization techniques, including incorporation of the catalyst into a sorbent material, were examined. Extensive modeling of a reactor test bed mimicking air duct work with throughput similar to that seen on the International Space Station was completed to determine optimal reactor design. A bench-scale reactor with the novel catalyst and high-efficiency blue LEDs was challenged with several common volatile organic compounds (VOCs) found in ISS cabin air to evaluate the system's ability to perform high-throughput trace contaminant removal. The ultimate goal for this testing was to determine if the unit would be useful in pre-heat exchanger operations to lessen condensed VOCs in recovered water thus lowering the burden of VOC removal for water purification systems.

Keywords: Man/System Technology and Life Support

Type: ICES-2016-169 , KSC-E-DAA-TN30914 , International Conference on Enviornmental Systems; Jul 10, 2016 - Jul 14, 2016; Vienna; Austria

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10

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Self-Cleaning Boudouard Reactor for Full Oxygen Recovery from Carbon Dioxide (2016)

Lunn, Griffin M. ; Devor, Robert W. ; Captain, James G. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Oxygen recovery from respiratory carbon dioxide is an important aspect of human spaceflight. Methods exist to sequester the carbon dioxide, but production of oxygen needs further development. The current International Space Station Carbon Dioxide Reduction System (CRS) uses the Sabatier reaction to produce water (and ultimately breathing air). Oxygen recovery is limited to 50% because half of the hydrogen used in the Sabatier reactor is lost as methane, which is vented overboard. The Bosch reaction, which converts carbon dioxide to oxygen and solid carbon is capable of recovering all the oxygen from carbon dioxide, and is the only real alternative to the Sabatier reaction. However, the last reaction in the cycle, the Boudouard reaction, produces solid carbon and the resulting carbon buildup will eventually foul the nickel or iron catalyst, reducing reactor life and increasing consumables. To minimize this fouling and increase efficiency, a number of self-cleaning catalyst designs have been created. This paper will describe recent results evaluating one of the designs.

Keywords: Man/System Technology and Life Support

Type: ICES-2016-287 , KSC-E-DAA-TN30291 , International Conference on Environmental Systems; Jul 10, 2016 - Jul 14, 2016; Vienna; Austria

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