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The discovery, published in the latest issue of Applied Catalysis B: Environmental, would take advantage of CO2 emitted into the atmosphere to produce methane and thus be used as synthetic natural gas. The potential for decontamination that the development of a device based on this information would be huge, say the researchers, including two University of Chile academics.
Wednesday, July 11, 2018 2:40 pm.
Global warming and air pollution could literally take a break, according to a group of international researchers, who are studying a method of using CO2 to produce a gaseous fuel. "Non-fossil" origin: Two researchers from the UFMF of the U. Chile and Núcleo Milenio Multimat participated in the research.
"Our work aims at taking advantage of CO 2 emitting into the atmosphere and producing methane that can be reused as synthetic natural gas." Our data confirms that with this method we can produce 5 times more fuel than Before, "says Dr. Francisco Gracia, an academic from the Department of Chemical Engineering, Biotechnology and Materials of the CMLF of the University of Chile.
The scientist took about a year to achieve this, using reaction systems from the Catalysis and Energy Laboratory and the FCMF characterization material, such as an X-ray photoelectron spectroscope (XPS) and a electron microscope. High resolution (HR-TEM).
The Next Step
"Our aspiration is to consolidate this information in the development of a catalytic system that allows us to develop a compact device, similar to the catalytic converters of gasoline vehicles, that could be installed in boiler fireplaces or thermoelectric plants CO2 emissions take advantage of it as an energy raw material, "concludes Dr Gracia, also Deputy Director of the Millennium Multimat Nucleus and charged with researching an alternative use of CO2 in the FCFM. U. de Chile.
The research was conducted by an interdisciplinary group of researchers, including: Manuel Romero-Sáez (Quality Group, Metrology and Production, Instituto Tecnológico Metropolitano, Medellín, Colombia), Ana Belén Dongil, Ph.D. the Institute of Catalysis and Chemical Oil (Spain), Noelia Benito, PhD in Physics, mentions the advanced materials and nanotechnology from the Department of Physics of the University of Concepción; Néstor Escalona, Doctor of Chemistry from the Pontificia Universidad Católica de Chile and Rodrigo Espinoza and Francisco Gracia, both from the Department of Chemical Engineering, Biotechnology and Materials FCFM of the University of Chile.
The discovery titled "CO2 Methanation on Nickel- ZrO2 Catalyst Supported on Carbon Nanotubes: A Comparison Between Two Impregnation Strategies" published in the latest issue of the Applied Catalysis B: Environmental scientific journal, for more information on the web address
Global Warming air pollution, they could literally take a breath. This is what a group of international researchers, who are studying a method of using CO2 to produce a gaseous fuel of "non-fossil" origin, think. Two UFMF researchers from U. Chile and Millennium Nucleus Multimat participated in the research.
"Our work aims to take advantage of CO2 emitted into the atmosphere and to produce methane that can be reused as synthetic natural gas. Our data confirms to us, with this method we can produce 5 times more fuel than before, "says Dr. Francisco Gracia, an academic from the Department of Chemical Engineering, Biotechnology and Materials of the CMLF of the University of Chile
The scientist took about a year to achieve this, using reaction systems from the Catalysis and Energy Laboratory and the FCFM characterization material, such as an X-ray photoelectron spectroscope (XPS) and High-resolution electron microscope (HR-TEM)
The next step
"Our aspiration is to consolidate this information in the development of a catalytic system that allows us to develop a compact device, similar to catalytic converters of gasoline vehicles, which could be installed in boiler stacks or thermoelectric plants CO2 emissions take advantage of them as energy raw material, "concludes Dr. Gracia, also deputy director of the Millennium Multimat Nucleus and charged with researching an alternative use of CO2 in the UFMF. from Chile.
The research was conducted by an interdisciplinary group of researchers, including: Manuel Romero-Sáez (Quality Group, Metrology and Production, Instituto Tecnológico Metropolitano, Medellín, Colombia); Ana Belén Dongil, Doctor of the Institute of Catalysis and Chemical Oil (Spain); Noelia Benito, PhD in Physics, mentions advanced materials and nanotechnology from the Department of Physics of the University of Concepción; Néstor Escalona, Doctor of Chemistry from the Pontificia Universidad Católica de Chile and Rodrigo Espinoza and Francisco Gracia, both from the Department of Chemical Engineering, Biotechnology and Materials FCFM of the University of Chile.
The discovery titled "CO2 Methanation on Nickel- ZrO2 Catalyst Supported on Carbon Nanotubes: A Comparison Between Two Impregnation Strategies" published in the latest issue of the Applied Catalysis B: Environmental scientific journal, for more details. # 39; information, reviews the following web address
Global Warming air pollution, they could literally take a breath. This is what a group of international researchers, who are studying a method of using CO2 to produce a gaseous fuel of "non-fossil" origin, think. Two UFMF researchers from U. Chile and Millennium Nucleus Multimat participated in the research.
"Our work aims to take advantage of CO2 emitted into the atmosphere and to produce methane that can be reused as synthetic natural gas. Our data confirms to us, with this method we can produce 5 times more fuel than before, "says Dr. Francisco Gracia, an academic from the Department of Chemical Engineering, Biotechnology and Materials of the CMLF of the University of Chile
The scientist took about a year to achieve this, using reaction systems from the Catalysis and Energy Laboratory and the FCFM characterization material, such as an X-ray photoelectron spectroscope (XPS) and High-resolution electron microscope (HR-TEM)
The next step
"Our aspiration is to consolidate this information in the development of a catalytic system that allows us to develop a compact device, similar to catalytic converters of gasoline vehicles, which could be installed in boiler stacks or thermoelectric plants CO2 emissions take advantage of them as energy raw material, "concludes Dr. Gracia, also deputy director of the Millennium Multimat Nucleus and charged with researching an alternative use of CO2 in the UFMF. from Chile.
The research was conducted by an interdisciplinary group of researchers, including: Manuel Romero-Sáez (Quality Group, Metrology and Production, Instituto Tecnológico Metropolitano, Medellín, Colombia); Ana Belén Dongil, Doctor of the Institute of Catalysis and Chemical Oil (Spain); Noelia Benito, PhD in Physics, mentions advanced materials and nanotechnology from the Department of Physics of the University of Concepción; Néstor Escalona, Doctor of Chemistry from the Pontificia Universidad Católica de Chile and Rodrigo Espinoza and Francisco Gracia, both from the Department of Chemical Engineering, Biotechnology and Materials FCFM of the University of Chile.
The discovery titled "Methanation of CO2 on nickel- ZrO2 catalyst supported on carbon nanotubes: A comparison between two impregnation strategies" appeared in the latest issue of the Applied Catalysis B: Environmental scientific journal, for more information see the following web address
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