Carmen Williana Moncada Quintero
1
Carmen Williana Moncada Quintero Chemical engineer Personal profile Education 2017-2021 Experience Contact Via Nizza 106 Torino, Italy 10126 +39 388 496 94 56 ................. January 16, 1993................. Caracas, Venezuela Languages Spanish Italian English Computer skills Languages: Focusing on the production and management of technological innovation through the development of sustainable physical-chemical processes with reduction/elimination of the use and generation of hazardous substances, preventing chemical risks and environmental pollution Native Fluent Professional Politecnico di Torino Turin, Italy Process intensification using ceramic open cell foams as catalytic support for exo/endothermic reactions: Focus on lean methane combustion Grade: Cum Laude 2014-2016 Politecnico di Torino Turin, Italy M.Sc. in Chemical and Sustainable Process Engineering Grade: 105/110 Particularly focusing on transformation technologies in the manufacturing industry, providing leading-edge solutions to society's needs: design, operation and control of efficient and clean technologies for processes that produce and/or transform materials and energy 2010-2016 Universidad Central de Venezuela Caracas,Venezuela B.Sc. in Chemical Engineering Politecnico di Torino Double degree Grade: 18/20 2021- Currently Politecnico di Torino Turin, Italy Intensification of catalytic processes through structured catalysts for CH emission abatement 4 (StruCat Project): Preparation, characterization and modeling of structured reactors. The main objectives include the analysis of mass transfer effects, the evaluation of different operating regimes and the impact of flow/support properties on catalytic performance 2018-2021 Politecnico di Torino Turin, Italy Teaching Assistance in Chemistry Ph.D in Chemical Engineering Postdoctoral Researcher Supervision of all laboratory activities as well as responsability for the development of lectures and support classes for Bachelor’s and Master's students Erasmus Ph.D Programme Countries Preparation and characterization of structured catalytic reactors for exhaust after-treatment in the automotive sector: Covering via washcoating technique on foams and monoliths of ceramic and metallic material Universidad del País Vasco 2020 San Sebastián, Spain Erasmus+ Traineeship Modelling of open cell foams as catalytic support. Development of a detailed mathematical model capable of describing the mass and heat transfer through the structures as well as providing a criterion for the identification of control regimes in chemical reactions: Computational Fluid Dynamics using COMSOL IFP Energies Nouvelles 2019 Lyon, France Teaching Assistance in Chemical Reactors and Kinetic Support and development of lectures and practical exercises in chemical reaction kinetics, chain reactions and catalytic sequences. Kinetic modeling, including model fitting and data processing. Focus on catalysis as a key technology in sustainable chemical process industry, energy production and environmental processes Universidad Central de Venezuela 2013-2014 Caracas,Venezuela Professional courses attended Energy and low carbon technologies, PGM-free catalysts for energy systems and fuel cells, Raman spectroscopy for biomaterials, Digitalization tools for the chemical and process industries, Experimental heat and mass transfer, Materials for efficient energy devices, Computational heat and mass transfer, Experimental mass and heat transfer, Process control, Industrial instrumentation, Project management and training in techniques and methods for the preparation and characterization of materials In compliance with the Italian legislative Decree no. 196 dated 30/06/2003, I hereby authorize you to use and process my personal details contained in this document Main scientific publications - Moncada Quintero., et al. Analysis of Heat and Mass Transfer Limitations for the Combustion of Methane Emissions on PdO/Co O 3 4 Coated on Ceramic Open Cell Foams. Chemical Engineering Journal 2021, 405, 126970. - Moncada Quintero., et al. Effect of the Co O Load on the Performance of PdO/Co O /ZrO Open Cell Foam Catalysts for the Lean 3 4 3 4 2 Combustion of Methane: Kinetic and Mass Transfer Regimes. Catalysis Today, vol. 383, 2022, pp. 247–258. - Moncada Quintero., et al. Combined silicon carbide and zirconia open cell foams for the Process Intensification of catalytic Methane Combustion in lean conditions: impact on heat and mass transfer. Chemical Engineering Journal 2021, 429, 132448. Other publications available on: https://www.researchgate.net/profile/Carmen-Moncada-2 [email protected] [email protected] Key strengths Interests Chemical engineer with a passion for innovation, optimization and intensification of processes and development of technologies in the fields of air quality and energy production. Strong analytical, organizational and critical problem- solving skills, which I have implemented during my academic and professional experience in research, data analysis, experimental procedures, reporting, documentation and project management. Currently, seeking further challenges in large-scale projects and environments to offer my knowledge and develop new skills in line with industry best practices that encourage teamwork, growth and commitment to quality, innovation and process optimization Software: Comsol, Matlab, Aspen Hysys, Pro II, Minitab ImageJ, SolidWorks Avizo, MS office C, C++ , Visual Basic Process optimization, Process design, Process simulations, Data analysis, Creative problem - solving, R&D, Project management, Time management, Technical writing, Team leadership, Team working ability, Organizational and technical skills, Strong interpersonal and communication skills
Transcript of Carmen Williana Moncada Quintero
Carmen Williana Moncada Quintero
Chemical engineer
Personal profile
Education
2017-2021
Experience
Contact
Via Nizza 106Torino, Italy10126
+39 388 496 94 56 .................
January 16, 1993.................Caracas, Venezuela
Languages
Spanish
Italian
English
Computer skills
Languages:
Focusing on the production and management of technological innovation through the development of sustainable physical-chemical processes with
reduction/elimination of the use and generation of hazardous substances, preventing chemical risks and environmental pollution
Native
Fluent
Professional
Politecnico di Torino
Turin, Italy Process intensification using ceramic open cell foams as catalytic support for exo/endothermic reactions: Focus on lean methane combustion
Grade: Cum Laude
2014-2016
Politecnico di Torino
Turin, Italy
M.Sc. in Chemical and Sustainable Process Engineering
Grade: 105/110
Particularly focusing on transformation technologies in the manufacturing industry,providing leading-edge solutions to society's needs: design, operation and control
of efficient and clean technologies for processes that produce and/or transform materials and energy
2010-2016
Universidad Central de Venezuela
Caracas,Venezuela
B.Sc. in Chemical EngineeringPolitecnico di Torino Double degree
Grade: 18/20
2021- Currently
Politecnico di Torino
Turin, Italy Intensification of catalytic processes through structured catalysts for CH emission abatement 4
(StruCat Project): Preparation, characterization and modeling of structured reactors. The main objectives include the analysis of mass transfer effects, the evaluation of different
operating regimes and the impact of flow/support properties on catalytic performance
2018-2021
Politecnico di Torino
Turin, Italy
Teaching Assistance in Chemistry
Ph.D in Chemical Engineering
Postdoctoral Researcher
Supervision of all laboratory activities as well as responsability for the development of lectures and support classes for Bachelor’s and Master's students
Erasmus Ph.D Programme Countries
Preparation and characterization of structured catalytic reactors for exhaust after-treatment in the automotive sector: Covering via washcoating technique on
foams and monoliths of ceramic and metallic material
Universidad del País Vasco
2020
San Sebastián, Spain
Erasmus+ Traineeship
Modelling of open cell foams as catalytic support. Development of a detailed mathematical model capable of describing the mass and heat transfer through the
structures as well as providing a criterion for the identification of control regimes in chemical reactions: Computational Fluid Dynamics using COMSOL
IFP Energies Nouvelles
2019
Lyon, France
Teaching Assistance in Chemical Reactors and Kinetic
Support and development of lectures and practical exercises in chemical reaction kinetics, chain reactions and catalytic sequences. Kinetic modeling,
including model fitting and data processing. Focus on catalysis as a key technology in sustainable chemical process industry, energy production
and environmental processes
Universidad Central de Venezuela
2013-2014
Caracas,Venezuela
Professional courses attended
Energy and low carbon technologies, PGM-free catalysts for energy systems and fuel cells, Raman spectroscopy for biomaterials, Digitalization tools for the chemical and process industries, Experimental heat and mass transfer, Materials for efficient energy devices,
Computational heat and mass transfer, Experimental mass and heat transfer, Process control, Industrial instrumentation, Project management and training in techniques and methods for the preparation and characterization of materials
In compliance with the Italian legislative Decree no. 196 dated 30/06/2003, I hereby authorize you to use and process my personal details contained in this document
Main scientific publications
- Moncada Quintero., et al. Analysis of Heat and Mass Transfer Limitations for the Combustion of Methane Emissions on PdO/Co O 3 4
Coated on Ceramic Open Cell Foams. Chemical Engineering Journal 2021, 405, 126970.- Moncada Quintero., et al. Effect of the Co O Load on the Performance of PdO/Co O /ZrO Open Cell Foam Catalysts for the Lean 3 4 3 4 2
Combustion of Methane: Kinetic and Mass Transfer Regimes. Catalysis Today, vol. 383, 2022, pp. 247–258.- Moncada Quintero., et al. Combined silicon carbide and zirconia open cell foams for the Process Intensification of catalytic Methane Combustion in lean conditions: impact on heat and mass transfer. Chemical Engineering Journal 2021, 429, 132448. Other publications available on: https://www.researchgate.net/profile/Carmen-Moncada-2
Key strengths
Interests
Chemical engineer with a passion for innovation, optimization and intensification of processes and development of technologies in the fields of air quality and energy production. Strong analytical, organizational and critical problem-solving skills, which I have implemented during my academic and professional experience in research, data analysis, experimental procedures, reporting, documentation and project management. Currently, seeking further challenges in large-scale projects and environments to offer my knowledge and develop new skills in line with industry best practices that encourage teamwork, growth and commitment to quality, innovation and process optimization
Software:Comsol, Matlab, AspenHysys, Pro II, MinitabImageJ, SolidWorksAvizo, MS office
C, C++ , Visual Basic
Process optimization, Process design, Process simulations, Data analysis, Creative problem -solving, R&D, Project management, Time management,Technical writing, Team leadership, Team working ability, Organizational and technical skills, Strong interpersonal
and communication skills
