12 research outputs found
Relevant changes in the properties of Co(Ni)Mo/Al2O3 HDS catalysts modified by small amounts of SiO2
The changes in hydrodesulfurization activity, selectivity, dispersion, sulfidation, and extent of promotion of Co(Ni)Mo catalysts were investigated when the alumina support surface is modified by grafting 4 wt% silica. Adding SiO2 eliminates the most reactive hydroxyl groups on the alumina surface (IR band at 3775 cm 1) decreasing the possibility of generating tetrahedral Mo species difficult to sulfide in favor of octahedral ones capable of contributing to the sulfided active phase. The catalysts were evaluated in the hydrodesulfurization of 4,6-dimethyldibenzothiophene. Incorporating SiO2 to alumina increases the hydrogenation rate constant and therefore the global hydrodesulfurization rate of 4,6-dimethyldibenzothiophene and enhances the promotion of Mo by Co (or Ni). The global sulfidation of Ni is not affected by the addition of silica but the sulfidation of cobalt is significantly improved. The extent of promotion of the NiMo/Al2O3 and NiMo/SiO2/ Al2O3 catalysts was greater than the one achieved in their Co-promoted counterpartsCB-168827, beca posdoctoral otorgada por CONACyT al Dr. Adolfo Romero Galarza from DGAPA-UNAM, project PAPIIT-IN-113015. We thank Mariela Bravo-Sanchez (Universidad de Guadalajara) for her discussion about the XPS results, Ivan Puente for the TEM work, and Alberto Herrera-Gómez (CINVESTAV-Unidad Querétaro, Mexico) for providing computer program AANALYZER version 1.2
Quantification of the sulfidation extent of Mo in CoMo HDS catalyst through XPS
Background removal in X-ray photoelectron spectroscopy (XPS) spectra was carried out in Co–Mo hydrodesulfurization (HDS) catalysts supported alumina using traditional and recent methods. The sulfidation extent, expressed by the XPS area ratio AMo3d-MoS2/AMo3d-Total, which is a fundamental parameter in the performance of a hydrodesulfurization catalyst, was obtained using different methodologies. The methods include the use of the background active approach, in which the background is optimized during peak-fitting. The method allows for the use of several types of backgrounds, which proved crucial for fitting the Mo 3d-S 2s and the S 2p–Si 2p regions. Both regions contain two overlapped elements, making fundamental a distinction between them. In these cases, a slope background subtraction was used in conjunction with the Shirley-Vegh-Salvi-Castle (SVSC) method to have a clear distinction between the different strengths of backgrounds arising from the overlapped peaks Mo 3d-S 2s and S 2p–Si 2p. From the resulting fitting, the relative percentage (% rel.) of each species present in Mo and S in the catalyst CoMoAl was obtained. The results were compared with those obtained using the static (traditional) approach. With these results, the sulfidation extent, an important parameter in the performance of the HDS catalyst was determined.Adolfo-Romero Galarza thanks Consejo Nacional de Ciencia y Tecnologia (CONACyT), Mexico for their postdoctoral fellowship (ID. 1908/2010C ) . We acknowledge financial support from Direccion General de Asuntos del Personal Academico ( DGAPA) Mexico, UNAM , project PAPIIT-IN-113015 . The authors appreciate the support provided by Gustavo Gomez-Sosa (CINVESTAV-Qro.) for the acquisition of the XPS data and Alberto Herrera-Gómez (CINVESTAV-Unidad Queretaro, Mexico) for engaging in useful discussion regarding the spectra fitting and for providing computer program AANALYZER version 1.2
The Silicon on the Catalysis: Hydrodesulfurization of Petroleum Fractions
The use of silicon in hydrodesulfurization (HDS) catalysts has had an impact on some of the fundamental parameters for the performance of the HDS catalyst, such as dispersion of the active phase, the extent of sulfidation, or the level of promotion. Mesoporous silicates such as MCM-41, SBA-15, the modified surface of γ-alumina with silica, or mixed Al2O3-SiO2 support have showed to affect the metal-support interaction, favoring the so-called type II Co(Ni)–Mo(W)–S structures. The aim of this chapter is to elaborate an analysis on the recent advances in the synthesis design of silicon catalyst support for the hydrodesulfurization of petroleum fractions
Secuencia didáctica aplicada al proyecto terminal de la unidad de aprendizaje: tratamiento del agua
El propósito de este proyecto es promover la participación de alumnos, directivos, docentes, así como cualquier miembro de la comunidad local, en el cuidado del agua, sensibilizando a toda esta comunidad, mediante campañas de difusión y distribución de folletos, sobre el uso y cuidado responsable del agua, se pretende lograr a través de la aplicación de una secuencia didáctica enfocada a un proyecto final, haciendo uso de material didáctico, trabajo teórico y experimental hecho por los estudiantes y la ciencia como herramienta en el desarrollo de algunas habilidades y lograr el aprendizaje de los alumnos. Se pretende hacer el trabajo por equipo en el que harán diversas propuestas para solucionar algunos problemas que se relacionan con el desperdicio del agua, la contaminación del agua y la falta de conciencia de la sociedad.The purpose of this project is to promote the participation of students, directors, teachers, as well as any member of the local community, in caring for water, raising awareness in the entire community, through dissemination campaigns and distribution of brochures, on the use and Responsible care of water, is intended to be achieved through the application of a didactic sequence focused on a final project, making use of didactic material, theoretical and experimental work done by students and science as a tool in the development of some skills and achieve student learning. It is intended to work as a team in which they will make various proposals to solve some problems related to water waste, water pollution and lack of awareness in society
Desarrollo de catalizadores novedosos de HDS a partir de sales de heteropoliacidos con estructura Keggin de CO, MO y P /
\ua0tesis que para obtener el grado de Doctor en Ingeniería Química, presenta Adolfo Romero Galarza ; asesor Jorge Fernando Ramírez Solís. 137 páginas :\ua0ilustraciones. Doctorado en Ingeniería Química\ua0UNAM, Facultad de Química,\ua0201
Relevant changes in the properties of Co(Ni)Mo/Al2O3 HDS catalysts modified by small amounts of SiO2
The changes in hydrodesulfurization activity, selectivity, dispersion, sulfidation, and extent of
promotion of Co(Ni)Mo catalysts were investigated when the alumina support surface is modified
by grafting 4 wt% silica. Adding SiO2 eliminates the most reactive hydroxyl groups on the
alumina surface (IR band at 3775 cm 1) decreasing the possibility of generating tetrahedral Mo
species difficult to sulfide in favor of octahedral ones capable of contributing to the sulfided active
phase. The catalysts were evaluated in the hydrodesulfurization of 4,6-dimethyldibenzothiophene.
Incorporating SiO2 to alumina increases the hydrogenation rate constant and therefore the global
hydrodesulfurization rate of 4,6-dimethyldibenzothiophene and enhances the promotion of Mo by
Co (or Ni). The global sulfidation of Ni is not affected by the addition of silica but the sulfidation
of cobalt is significantly improved. The extent of promotion of the NiMo/Al2O3 and NiMo/SiO2/
Al2O3 catalysts was greater than the one achieved in their Co-promoted counterpartsCB-168827, beca posdoctoral otorgada por CONACyT al Dr. Adolfo Romero Galarza
from DGAPA-UNAM, project PAPIIT-IN-113015. We
thank Mariela Bravo-Sanchez (Universidad de Guadalajara)
for her discussion about the XPS results, Ivan Puente
for the TEM work, and Alberto Herrera-Gómez
(CINVESTAV-Unidad Querétaro, Mexico) for providing
computer program AANALYZER version 1.2
Quadratic Non-Linear Optical Properties of the poly(2,5-bis(but-2-ynyloxy) Benzoate Containing the 2-(ethyl(4-((4-nitrophenyl)buta-1,3-diynyl)phenyl)amino)ethanol) Chromophore
Excellent quadratic non-linear optical (ONL-2) properties of the poly(2,5-bis(but-2-ynyloxy) benzoate, containing a polar diacetylene as a chromophore, were found. According with the Maker fringes method, oriented polymer films showing an order parameter of ∼0.23 can display outstanding and stable Second Harmonic Generation (SHG) effects under off-resonant conditions (SHG-532 nm). Also, the macroscopic non-linear optical (NLO)-coefficients were evaluated under the rod-like molecular approximation, obtaining: χzzz(2) and χzxx(2) in the order of 280 ± 10 and 100 ± 10 pm V−1, respectively. The mechanical and chemical properties, in addition to the large ONL-2 coefficients exhibited by this polymer, make it a promising organic material in the development of optoelectronic/photonic devices