Wasteomics ⇒ a workflow to analyze complex reaction environments, waste, and realistic feeds conversions



Problem statement

In most heterogeneous catalytic processes, the reactive environment contains a mixture of reactants, intermediates, and products, and some adsorbed-trapped on the catalytic surface and elsewhere. Thus, most reacting environments in catalysis are complex, involve several phases (multiphase), and comprise unstable species or are challenging to analyze. To make things worse, some of these species have (auto-)catalytic or deactivating nature on the kinetics of the surrounding ones.

A typical practice in catalysis is using model molecules or surrogates to deepen into the mechanistic pathways, microkinetics, spectroscopy, etc. Conversely, analytical techniques keep evolving, becoming more precise but always targeting a specific fraction or type of species. That is to say, there is only one technique that solves all.

We aim to bridge the fundamental research performed in our group and outside using model molecules with a powerful analytical multi-technique approach to analyze the entire reaction media. The -omics fields inspire us to reflect on the collective characterization and quantification of pools of molecules that translate into the structure, function, and dynamics involved. We apply our approach to hydrocarbon transformations and green-sustainable feedstock (i.e., waste plastics, sewage sludge, biomass, algae, and seaweed). We develop multi-technique analytical protocols for the complete chemical molecular-level description of complex mixtures.

Goals

  • Analytical workflow ⇒ multi-analytical technique integration
  • Wasteometrics I ⇒ quantitative- and molecular-level analysis
  • Wasteometrics II ⇒ data mining and processing
  • Wasteomics ⇒ reaction networks and kinetic modeling

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Appl. Catal. B: Environ. Year: 2019
Authors: Palos, Kekalainen, Duodu, Gutierrez, Arandes, Janis, Castaño
  • HPC
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Coke Deposition and Product Distribution in the Co-Cracking de Waste Polyolefin Derived Streams and Vacuum Gas Oil under FCC Unit Conditions
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Coking and Sintering Progress of a Ni Supported Catalyst in the Steam Reforming of Biomass Pyrolysis Volatiles
Appl. Catal. B: Environ. Year: 2018
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Role of Oxygenates and Effect of Operating Conditions in the Deactivation of a Ni Supported Catalyst During the Steam Reforming of Bio-oil
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Nature and Location of Carbonaceous Species in a Composite HZSM-5 Zeolite Catalyst during the Conversion of Dimethyl Ether into Light Olefins
Catalysts Year: 2017
Authors: Ibanez, Perez-Uriarte, Sanchez-Contador, Cordero-Lanzac, Aguayo, Bilbao, Castaño
Open Access.
Characterization and Controlled Combustion of Carbonaceous Deactivating Species Deposited on an Activated Carbon-Based Catalyst
Chem. Eng. J. Year: 2017
Authors: Cordero-Lanzac, Hita, Veloso, Arandes, Rodriguez-Mirasol, Bilbao, Cordero, Castaño
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Deactivation Dynamics of a Ni Supported Catalyst during the Steam Reforming of Volatiles from Waste Polyethylene Pyrolysis
Appl. Catal. B: Environ. Year: 2017
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Opportunities and Barriers for Producing High Quality Fuels from the Pyrolysis of Scrap Tires
Renew. Sustain. Energy Rev. Year: 2016
Authors: Hita, Arabiourrutia, Olazar, Bilbao, Arandes, Castaño
Highly Cited Paper and Hot Paper according to Essential Science Indicators.
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Prospects for Obtaining High Quality Fuels from the Hydrocracking of a Hydrotreated Scrap Tires Pyrolysis Oil
Energy & Fuels Year: 2015
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