Personal Data
Full name
Ana Jacinta Pereira da Costa Soares
Publishing name
Ana Jacinta Soares
Birthday
19661105T00:00:00
Academic Degrees
DOUTORAMENTO(0)
Degree date
1997
Final grade
Aprovação (unanimidade)
Degree granting institution
Universidade de Coimbra
School / College / Campus
Faculdade de Ciências e Tecnologia
Thesis title
Kinetic Theory of Chemically Reactive Gases. Detonation Waves
Supervisor
Roberto Monaco (Politecnico di Torino, Italy)
Cosupervisor
Artur Soares Alves (University of Coimbra, Portugal)
Scientific area
Matemática
LICENCIATURA(4)
Degree date
1988
Final grade
15
Degree granting institution
Universidade de Coimbra
School / College / Campus
Other
Thesis title
(without thesis)
Supervisor

Cosupervisor

Scientific area
Mathemática
Profissional activity
Period  Position  Institution 

13012013  03022016  Director of the Research Centre of Mathematics  University of Minho 
September 2011   Director of the Boletim of the SPM  Portuguese Mathematical Society 
01012010  01122012  Head of the Geometry, Topology and Mathematical Physics Research Group  University of Minho 
September 2009  September 2011  Member of Scientific Committee of the Doctoral Programme in Mathematics and
Applications of the Universities of Aveiro and Minho 
Universities of Aveiro and Minho 
February 2009   Associate Professor (Professor Associado)  University of Minho 
September 1999  January 2009  Assistant Professor (Professor Auxiliar)  University of Minho 
July 1997  August 1999  Assistant Professor (Professor Auxiliar)  University of Coimbra 
October 1992  June 1997  Researcher (Assistente)  University of Coimbra 
October 1988  October 1992  Junior Researcher (Assistente Estagiário)  University of Coimbra 
October 1987  July 1988  Lecture (Monitor)  University of Coimbra 
Area of scientific activity
Area of scientific activity
Kinetic theory of chemically reacting gases. Boltzmann equation.
PDEs. Existence theory.
Modelling. Applications.
Wave solutions. Stability of solutions.
Specialization domain
Mathematical Physics.
Kinetic theory of chemically reactive gases.
Current main scientific area
Mathematical analysis of the kinetic PDEs. Hydrodynamic limits.
Nonequilibrium effects. Wave propagation and stability. Mathematical modeling.
Other scientific activities
(I) Some experience in numerical simulations
(II) Organization of meetings
a) International
DynAppl2008 http://w3.math.uminho.pt/dynappl2008/public_html/
PSPDEs Braga 201216 Nice 2017 https://sites.google.com/site/meetingpspdevi
b) National
1day meeting Math Phys 200910 http://w3.math.uminho.pt/meetingMathPhys/
Open day CMAT 2015 https://sites.google.com/site/cmatumutad/
I Meeting of CMAT PhD Students 2014 http://www.cmat.uminho.pt/uploads/I_Encontro_Doutorandos_CMAT_programa.pdf
(III) Member of Sci Comm CIM IntConf Planet Earth 2013 http://sqig.math.ist.utl.pt/cim/mpe2013/
(IV) Referee for several journals
SIAM J App Math
Nonlinearity
J Math An App
App Math Modeling
Physica AD
Cont Mech Thermodyn
J Num An Ind App Math
Computers Math App
Phys Fluids
J Comp Theo Transp
Eur J Phys IOP
Eur Phys J EPJ
Experience as scientific advisor
[PhD Supervision]
3  (In course)
On the Hydrodynamic Limits of the Boltzmann Equation for Reactive Mixtures, Supervisor: A. J. Soares, Cosupervisor: Patrícia Gonçalves, Univ. of Lisbon (IST). Institution that conferred the degree: University of Minho. Student: Benjamin Anwasia (PhD Program PDMA, FCT fellowship)
2  (Concluded)
Models of spatial competion: Introduction of uncertainty in the parameters of the Hotelling Model and Hotellingtype Networks, Doctoral Programme in Mathematical and Applications (PDMA), University of Minho. Student: Telmo José João Parreira, Supervisor: Alberto Pinto, University of Porto; CoSupervisor: Ana Jacinta Soares. Concluded in 2014, PhD degree in 2014.
1  (Concluded)
Mathematical methods for the Boltzmann equation in the context of chemically reactive gases, Supervisor: A. J. Soares, Cosupervisor: Filipe Oliveira, Univ. Nova de Lisboa. Institution that conferred the degree: University of Minho. Student: Filipe Carvalho. Concluded in 2012, PhD degree in 2013.
http://hdl.handle.net/1822/24430
[Master Supervision]
6) The Lucas Problem, a Classical Problem in Combinatorics, Master in Mathematics, University of Minho, 2017. Student: Alexandra Ferraz.
5) The concepts of limit and continuity in the transition from the secondary to university studies, Master in Mathematics, University of Minho, 2013. Student: Maria do Carmo Lopes.
4) Qualitative Theory of Differential Equation with Applications in Biology, Master in Mathematics, University of Minho, 2009. Student: António Martins Correia. Supervisors: Filipe Mena (University of Minho) and Ana Jacinta Soares.
3) Combinatorial reasoning of 9th grade pupils, Master in Education Mathematics, University of Minho, 2007. Student: Paulo Alexandre Ferreira Correia. Supervisiors: José António Fernandes (University of Minho) and Ana Jacinta Soares.
2) Initial Boundary Value Problems in the Fluid Dynamics, Master in Mathematics, University of TrásosMontes e Alto Douro, 2005. Student: Mónica Penarroias Branco Carneiro.
1) Numerical Methods for the Boltzmann Equation, Master in Computacional Mathematics, University of Minho, 2002. Student: Maria Manuela Jorge Martins Ferreira.
Participations in R&D projects
PTDC/MAT/68615/2006
Kinetic Models and Applications, Principal Researcher  Filipe Serra de Oliveira.
01062007 a 31052010
UTAustin/MAT/0035/2008
Analysis of Nonlinear Partial Differential Equations
Principal Researcher  José Miguel Urbano.
01012009 31122012
FCT & CAPES Project FCT 291/11
Nonequilibrium Statistical Mechanics of Stochastic Lattice Systems
Portuguese Coordinator: Patrícia Gonçalves
Brazilian Coordinator: Claudio Landim.
FCT "Pessoa Program" Project with Ref. 406/4/4/2017/S
Derivation of macrosopic PDE's from kinetic theory (mesoscopic) and from interacting particle systems (microscopic)
Portuguese Coordinator: Patrícia Gonçalves
French Coordinator: Cédric Bernardin.
Awards
Year  Award  Awarding entity 

Publications
Artigos em revistas de circulação internacional com arbitragem científica

26. Modeling and analysis of timedependent processes in a chemically reactive mixture, Continuum Mechanics and Thermodynamics, vol. 30, pp. 127144, 2018 (in collaboration with M.P. Ramos and C. Ribeiro).
25. A network model for landscape evolution: stability analysis and numerical tests, Comm. Nonlinear Science and Numerical Simulation, vol. 48, pp. 569584, 2017 (in collaboration with E. Bonacini, M. Groppi, R. Monaco and C. Soresina).
24. On modified simple reacting shperes kinetic model for chemically reactive gases, Kinetic and Related Models, vol. 10, pp. 513539, 2017 (in collaboration with J. Polewczak).
23. Equilibrium properties of detonation waves with a reversible reaction in the hydrodynamic limit of a kinetic model, J. Phys. A: Math. Theor., vol. 48, 235501, pp. 127, 2015 (in collaboration with W. Marques Junior, G. Kremer and M. Pandolfi Bianchi).
22. Dynamics of Robertson–Walker spacetimes with diffusion, Annals of Physics, vol. 354, pp. 475488, 2015 (in collaboration with A. Alho, S. Calogero, M.P. Machado Ramos).
21. On the Kinetic Modelling of Reactive Waves in the Hydrodynamic Limit, Aerotecnica Missili & Spazio, vol. 91, pp. 109119, 2012 (in collaboration with G. Kremer and M. Pandolfi Bianchi).
20. On the dynamics and linear stability of onedimensional steady detonation waves, J. Phys. A: Math. Theor. 45 (2012) 255501, pp. 123 (in collaboration with Filipe Carvalho). MCQ2012=0.23, IF2012=1.766
19. A Kinetic Model for Chemical Reactions without Barriers: Transport Coefficients and Eigenmodes, J. Stat. Mech.: Theory and Experiment, P03014, 2011 (in collaboration with Giselle M. Alves, Gilberto M. Kremer, Wilson Marques Jr.). IF2011=1.727
18. Modelling and solutions to the linear stability of a detonation wave in the kinetic frame, Journal of Difference Equations and Applications, vol. 17, pp.11691184, 2011 (in collaboration with M. Pandolfi Bianchi). MCQ2011=0.66, IF2011=0.8
17. From the transport coeffcients of a relaxation kinetic model to harmonic wave solutions, Il Nuovo Cimento, vol. 33, pp. 103110, 2010 (in collaboration with G. Kremer and M. Pandolfi Bianchi), IF2010=0.286
16. Htheorem and trend to equilibrium of chemically reacting mixture of gases, Kinetic and Related Models, vol. 2, pp.333343, 2009 (in collaboration with Filipe Oliveira and Gilberto M. Kremer). MCQ2009=0.97, IF2009=0.933
15. A note on a Discrete Boltzmann Equation with multiple collisions, J. Math. Anal. Appl. vol. 341, 1476–1481, 2008 (em colaboração com Filipe Oliveira). MCQ2008=0.89, IF2008=1.046
14. Effect of reaction heat on Maxwellian distribution functions and rate of reactions, J. Stat. Mech.: Theory and Experiment, P12003, 2007 (in collaboration with G. Kremer), IF2007=2.418
13. A nontrivial explicit solution for the 14velocity Cabannes kinetic model, Nonlinear Analysis TMA, vol. 67, 11671172, 2007 (in collaboration with Filipe Oliveira), MCQ2007=0.94, IF2007=1.097
12. Analysis of the trend to equilibrium of a chemically reacting system, J. Phys. A: Math. Theor., vol. 40, 25532571, 2007 (in collaboration with G. Kremer and M. Pandolfi Bianchi), IF2007=1.680
11. A relaxation kinetic model for transport phenomena in a reactive flow, Phys. Fluids, vol. 18, 037104, 2006 (in collaboration with G. Kremer and M. Pandolfi Bianchi), MCQ2006=0.12, IF2006=1.697
10. BGKtype models in strong reaction and kinetic chemical equilibrium regimes, J. Phys. A.: Math. and General, vol. 38, pp. 1041310431, 2005 (in collaboration with R. Monaco and M. Pandolfi Bianchi), IF2005=1.566
9. On the global wellposedness of discrete Boltzmann systems with chemical reaction,
Math. Meth. in the Appl. Sci., vol. 28, pp. 14911506, 2005 (in collaboration with Filipe Oliveira), MCQ2005=0.51, IF2005=0.526
8. Firstorder kinetic approximation for a reactive gas mixture, Continuum Mech. Thermodyn., vol. 17, pp. 5367, 2005 (in collaboration with M. Pandolfi Bianchi). MCQ2005=0.22, IF2005=0.821
7. Kinetic formulation of linear stability for steady detonation waves, Riv. Mat. Univ. Parma, vol. 3, pp. 171194, 2000 (in collaboration with M. Pandolfi Bianchi), MCQ2000=0.05, IF2005=0.821
6. Reactive Euler equations of discrete models with reversible reactions, Continuum Mech. Thermodyn., vol. 12, pp. 5367, 2000 (in collaboration with M. Pandolfi Bianchi), MCQ2000=0.14, IF2000=0.870
5. InitialBoundary Value Problem for the Broadwell Model of a Gas Mixture with Bimolecular Reaction, Math. Meth. in the Appl. Sci., vol. 21, pp. 501517, 1998.
4. Numerical Simulations of a Boltzmann Model for Reacting Gases, Appl. Math. and Comput., vol. 85, pp. 6185, 1997 (in collaboration with R. Monaco and M. Pandolfi Bianchi).
3. A Kinetic Model for a Reacting gas Flow: Steady Detonation and Speeds of Sound, Phys. Fluids, vol. 8, pp. 34233432, 1996 (in collaboration with M. Pandolfi Bianchi).
2. Steady Detonation Waves in Classical and Discrete Kinetic Theory, Commun. Appl. Nonlinear Anal., vol. 3, No. 3, pp. 119, 1996 (in collaboration with R. Monaco and M. Pandolfi Bianchi).
1. The Discrete Boltzmann Equation for Gases with Autocatalytic Reversible Reactions, Commun. Appl. Nonlinear Anal., vol. 1, pp. 2548, 1994 (in collaboration with M. Pandolfi Bianchi).
Livros (editor)

From Particle Systems to Partial Differential Equations II, Proceedings of "Particle Systems and PDEs II", Braga, Portugal, December 2013. Springer Proceedings in Mathematics & Statistics, Vol. 129, 2015 (Eds. P.Gonçalves, A.J.Soares).
From Particle Systems to Partial Differential Equations III, Proceedings of "Particle Systems and PDEs III", Braga, Portugal, December 2014. Springer Proceedings in Mathematics & Statistics, Vol. 162, 2016 (Eds. P.Gonçalves, A.J.Soares).
From Particle Systems to Partial Differential Equations, Proceedings of "Particle Systems and PDEs IV", Braga, Portugal, December 2015. Springer Proceedings in Mathematics & Statistics, Vol. 209, 2017 (Eds. P.Gonçalves, A.J.Soares).
Outras publicações

6. From the simple reacting sphere kinetic model to the reactiondiffusion system of MaxwellStefan type (in collaboration with Benjamin Anwasia and Patrícia Gonçalves), arXiv:1707.01316v2, 2017.
5. Kinetic approach to reactive mixtures: theory, modelling and applications, Bulletin of CIM, July 2012, pp. 1524.
4. Alguns problemas de valores iniciais e condições de fronteira em teoria cinética discreta de gases quimicamente activos, livro Geometria, FísicaMatemática e outros Ensaios em homenagem ao Professor Doutor António Ribeiro Gomes, Departamento de Matemática da Universidade de Coimbra, pp. 227240, 1998.
3. On the Discrete Boltzmann Equation for Chemically Reacting Gases, Rapporto Interno N. 17, Dipartimento di Matematica, Politecnico di Torino, 1997 (Technical Report).
2. Modelo Cinético Discreto com Relevo para o Estudo da Detonação, Actas do III Encontro de Mecânica Computacional, Eds. I. Narra Figueiredo ed al, vol. 2, pp. F2.1F2.11, 1993.
1. Modelos Discretos para Gases e Ondas de Detonação, livro Estudos de Matemática em homenagem ao Professor Doutor R. Pereira Coelho, Departamento de Matemática da Universidade de Coimbra, pp. 2138, 1992 (em colaboração com A. S. Alves).
Publicações em actas de encontros científicos

34. A new mathematical model for environmental monitoring and assessment, From Particle Systems to Partial Differential Equations IV, Proceedings of the IV Particle Systems and Partial Differential Equations Conference, Braga, Portugal, 2015, Springer Proceedings in Mathematics & Statistics, vol. 209, pp. 263283, 2017 (in collaboration with R. Monaco).
33. Overdriven detonation and bidimensional stability for an explosive mixture with symmetric reaction, accepted for publication in the proceedings of the 23.rd Conference of the Italian Association of Aeronautics and Astronautics. Turin (Italy), 1719 November 2015 (in collaboration with F. Carvalho, G. M. Kremer, W. Marques Jr., M. Pandolfi Bianchi).
32. Kinetic theory of simple reacting spheres: an application to coloring processes, From Particle Systems to Partial Differential Equations, Proceedings of the Particle Systems and Partial Differential Equations Conference, Braga, Portugal, 2013, Springer Proceedings in Mathematics & Statistics, vol. 129, pp. 153172, 2015 (in collaboration with F. Carvalho, J. Polewczak).
31. Dynamical properties of a cosmological model with diffusion, From Particle Systems to Partial Differential Equations, Proceedings of the Particle Systems and Partial Differential Equations Conference, Braga, Portugal, 2013, Springer Proceedings in Mathematics & Statistics, vol. 129, pp. 313333, 2015 (in collaboration with M. Piedade Ramos).
30. Detonation wave solutions and linear stability in a four component gas with bimolecular chemical reaction, Proceedings of the International Conference MECC 2013, Lisboa, Portugal, CIM Series in Mathematical Sciences, vol. 2, 2015 (in collaboration with Adriano Willian Silva and F. Carvalho).
29. On the kinetic systems for simple reacting spheres: modeling and linearized equations, From Particle Systems to Partial Differential Equations, Proceedings of the Particle Systems and Partial Differential Equations Conference, Braga, Portugal, 2012, Springer Proceedings in Mathematics & Statistics, vol. 75, pp. 251267, 2014 (in collaboration with J. Polewczak and F. Carvalho).
28. Detonation wave problems: modeling, numerical simulations and linear stability, Hyperbolic Problems  Theory, Numerics, Applications: Proceedings of the XIV International Conference on Hyperbolic Problems, Padova, Italy, 2012, Series AIMS on Applied Mathematics, Eds. F. Ancona et al., vol. 8, pp. 407414, 2014 (in collaboration with F. Carvalho).
27. Influence of Reaction Heat on Time Dependent Processes in a Chemically Reacting Binary Mixture, 28th International Symposium on Rarefied Gas Dynamics, AIP Proceedings, 1501, 137144, 2012 (in collaboration with G. M. Kremer and W. Marques Junior).
26. Spectral Distribution of the Scattered Light from a Chemical Relaxation System, 27th International Symposium on Rarefied Gas Dynamics, AIP Proceedings, 1333, 673678, 2011 (in collaboration with G. M. Kremer, W. Marques Junior and M. Pandolfi Bianchi).
25. Influence of the Reaction Heat on the Linear Stability Spectra of Steady Detonation in the Kinetic Frame, 27th International Symposium on Rarefied Gas Dynamics, AIP Conference Proceedings, 1333, 6974, 2011 (in collaboration with F. Carvalho).
24. Kinetic Theory of Simple Reacting Spheres I, 27th International Symposium on Rarefied Gas Dynamics, AIP Conference Proceedings, 1333, 117122, 2011 (in collaboration with J. Polewczak).
23. Transport Properties of a Kinetic Model for Chemical Reactions without Barriers, 27th International Symposium on Rarefied Gas Dynamics, AIP Conference Proceedings, 1333, 643648, 2011 (in collaboration with G. M. Kremer e G. M. Alves).
22. An Application of the SIR Model to the Evolution of Epidemics in Portugal, Dynamics and Applications 2008, Braga, Portugal, Springer Proceedings in Mathematics, vol. 2 (2011), 247250 (in collaboration with António M. Correia e Filipe C. Mena).
21. Kinetic theory for chemical reactions without a barrier, Dynamics and Applications 2008, Braga, Portugal, Springer Proceedings in Mathematics, vol. 2 (2011), 533543 (in collaboration with G. M. Kremer).
20. An HTheorem for Chemically Reacting Gases, Dynamics and Applications 2008, Braga, Portugal, Springer Proceedings in Mathematics, vol. 2 (2011), 503506 (in collaboration with G. M. Kremer e Filipe Oliveira).
19. Steady detonation wave solutions under the reaction heat effect, XV International Conference WASCOM 2009, World Scientific, Singapore, Ed. A. M. Greco et.al., pp. 8792, 2010 (in collaboration with F. Carvalho).
18. A Kinetic Approach to Propagation and Stability of Detonation Waves, Rarefied Gas Dynamics: 26th International Symposium, 2125 Julho 2008, Universidade de Kyoto, Kyoto , Japão, Edited by T. Abe (2009), 4550 (in collaboration withm R. Monaco and M. Pandolfi Bianchi).
17. A Kinetic Model for Chemical Reactions without Barriers", 26th International Symposium, 2125 Julho 2008, Universidade de Kyoto, Kyoto , Japão, Edited by T. Abe (2009), 105110 (in collaboration with G. M. Kremer).
16. Modeling the linear stability of planar detonation waves in extended kinetic theory", XIV International Conference WASCOM 2007 World Scientific, Singapore, pp. 421426, 2008 (in collaboration with R. Monaco and M. Pandol Bianchi).
15. The contribution of the reaction heat to nonequilibrium e ects of chemically reacting gases", XIV International Conference WASCOM 2007 World Scientific, Singapore, pp. 360365, 2008 (in collaboration with G. M. Kremer).
14. The effect of the afnity on the equilibrium behavior of a reactive system", 25th International Symposium on Rarefed Gas Dynamics 2127 de Julho, S. Petersburgo, Russia, pp. 941946, (in collaboration with G. M. Kremer and M. Pandolfi Bianchi).
13. Global solutions of Boltzmanntype equations with threebody chemical interactions, XIII International Conference WASCOM 2005, Eds. R. Monaco, G. Mulone, M. Torrisi, A. Valenti, pp. 414419, 2006 (in collaboration with Filipe Oliveira).
12. Simulations at kinetic scale of relaxation models for slow and fast chemical reactions, XIII International Conference WASCOM 2005, Eds. R. Monaco, G. Mulone, M. Torrisi, A. Valenti, pp. 378389, 2006 (in collaboration with R. Monaco and M. Pandolfi Bianchi).
11. Closure of the balance laws for gaseous mixtures near chemical equilibrium, XIII International Conference WASCOM 2005, World Scientific, Singapore, Eds. R. Monaco, G. Mulone, M. Torrisi, A. Valenti, pp. 304309, 2006 (in collaboration with G. M. Kremer and M. Pandolfi Bianchi).
10. A reactive BGKtype model: influence of elastic collisions and chemical interactions, 24th International Symposium on Rarefied Gas Dynamics, Ed. M. Capitelli, pp. 7075, 2004 (in collaboration with R. Monaco and M. Pandolfi Bianchi).
9. Firstorder kinetic approximation for a reactive flow, XII International Conference WASCOM 2003, World Scientific, Singapore, Eds. R. Monaco, S. Pennisi, S. Rionero, T. Ruggeri, pp. 380385, 200 (in collaboration with M. Pandolfi Bianchi).
8. A NavierStokes model for chemically reacting gases, XI International Conference WASCOM 2001, World Scientific, Singapore, Eds. R. Monaco, M. Pandolfi Bianchi, S. Rionero, pp. 373378, 2002 (in collaboration with M. Pandolfi Bianchi).
7. On the hyperbolicity of the reactive Euler Equations within discrete kinetic theo\ry, XI International Conference WASCOM 2001, World Scientific, Singapore, Eds. V. Ciancio, A. Donato, F. Oliveri, S. Rionero, pp. 363370, 2002 (in collaboration with M. Pandolfi Bianchi).
6. Detonation wave profiles by kinetic models, XV Congresso AIDAA 1999, Eds. M.S. Oggiano, S. Chiesa, M. Di Sciuva, vol. 1, pp 303314, 2000 (in collaboration with M. Pandolfi Bianchi).
5. Solutions to Steady Detonation and Linear Stability in Discrete Kinetic Theory, 21st International Symposium on Rarefied Gas Dynamics, Eds. R. Brun, R. Campargue, R. Gatignol, J.C. Lengrand, vol. 1, pp. 7986, 1999 (in collaboration with M. Pandolfi Bianchi).
4. On the Stability of Steady Detonation, IX International Conference WASCOM 1997, Rendiconti del Circolo Matematico di Palermo, Serie II, Suppl. 57, pp. 369374, 1998 (in collaboration with M. Pandolfi Bianchi).
3. A Discrete Velocity Model for Gas Mixtures: InitialBoundary Value Problems, VIII International Conference WASCOM 1995, Rendiconti del Circolo Matematico di Palermo, Serie II, Suppl. 45, pp. 347355, 1996 (in collaboration with G. Lauro).
2. A Kinetic Approach to Propagation and Stability of Detonation Waves, 26th International Symposium on Rarefied Gas Dynamics AIP Proceedings, ``A Kinetic Approach to Steady Detonation Wave Problems, VIII International Conference WASCOM 1995, Rendiconti del Circolo Matematico di Palermo, Serie II, Suppl. 45, pp. 501511, 1996 (in collaboration with M. Pandolfi Bianchi).
1. A Discrete Velocity Model for a Steady Detonation Wave Problem, Atti del XIII Congresso Nazionale della Associazione Italiana di Aeronautica e Astronautica, vol. 1, 24th International Symposium on Rare ed Gas Dynamics, Ed. M. Capitelli, pp. 7075, 2004 (in collaboration with R. Monaco and M. Pandolfi Bianchi).
Teses

Discrete Kinetic Model for Detonation (Modelo Cinético Discreto com Relevo para o Estudo da Detonação), Provas de Aptidão Pedagógica e Capacidade Científica, Department of Mathematics, University of Coimbra, 1992. http://hdl.handle.net/10316/1933
Kinetic Theory of Chemically Reacting Gases. Detonation Waves, PhD Thesis, Department of Mathematics, University of Coimbra, 1997.
Communications
Comunicações em painel ("poster")
3. Influence of the Reaction Heat on the Linear Stability Spectra of Steady Detonation in the Kinetic Frame, 27th International Symposium on Rarefied Gas Dynamics, 1015 July 2010, Pacific Grove, California, USA.
2. Analysis of nonequilibrium effects in chemical reactions without barrier, 21st International Conference on Transport Theory, Turin, Italy, July 2009.
1. Solutions to steady detonation and linear stability in discrete kinetic theory, 21st International Symposium on Rarefied Gas Dynamics, Marseille, France, July 1998.
Comunicações orais por convite
[Scientific Meetings]
11. From the kinetic theory formulation of chemical processes to reactiondiffusion equations, Mathematical approaches to complex systems: Statistical mechanics and partial differential equations, Serra da Arrábida, Portugal, July 25, 2017.
10. Transport effects and diffusion equations from the kinetic theory formulation of chemical processes, XIX International Conference on Waves and Stability in Continuous Media, Bologna, Italy, June 1216, 2017.
9. Mathematical and physical problems of chemically reactive mixtures, 10th AIMS Conference on Dynamical Systems Differential Equations and Applications, Madrid, Spain, July 711, 2014.
8. Kinetic modeling and applications of chemically reactive mixtures, Stochastic Dynamics of Complex Systems”, Arrábida, Portugal, July 2013.
7. Kinetic approach to chemically reacting systems, Mathematics of Energy and Climate Change, Thematic Session "Nonequilibrium statistical mechanics: kinetics, chemistry and coagulation", Lisbon, March 2013.
6. Mathematical problems of multicomponent reactive flows, Meeting in Douro on Differential Equations and Applications, October 2010.
5. Gas systems with chemical reactions: kinetic modeling and dynamical properties, Kinetics and Statistical Methods for Complex Systems, Lisbon, Portugal, July 2009.
4. A result of global existence for the discrete Boltzmann Equation (Um resultado de existência global para a equação de Boltzmann discreta), Dia das Equações, Braga, Portugal, October 2008.
3. Simulações numéricas para modelos cinéticos discretos de gases quimicamente activos, Encontro Nacional da SPM 1998, Braga, Fevereiro de 1998.
2. Questioni di esistenza ed unicità per equazioni modello di tipo iperbolico in teoria cinetica dei gas reagenti, Giornate di Studio sui Problemi Iperbolici, Università di Torino, Turin, Italy, October 1996.
1. Modelo Cinético Discreto com Relevo para o Estudo da Detonação, III Encontro de Mecânica Computacional, Coimbra, Setembro de 1992.
[Courses outside of my Centre/Department]
1. Kinetic theory of chemically reactive gases: theory, modelling and applications, 12 hours, University of Palermo, Italy, July 2015.
[Seminars outside of my Centre/Department]
16. Kinetic theory of chemically reactive mixtures: modelling and applications, University of Palermo, Italy, October 2015.
15. Kinetic theory of simple reacting spheres: modelling and hydrodynamic regimes, Centro de Matemática da Universidade de Coimbra, Coimbra, Portugal, April 2015.
14. BGKtype models for mixtures with chemical reactions (Modelos cinéticos de tipo BGK para misturas com reacções químicas), Federal University of Paraná, Curitiba, Brazil, May 2009.
13. Steady detonation waves: kinetic modellyng and stability (Modelação em teoria cinética da onda de detonação estacionária e análise da estabilidade), Federal University of Paraná, Curitiba, Brazil, May 2008.
12. Global solution to discrete Boltzmann equations modelling chemical reactions, CIDMA  Grupo de Análise Funcional e Aplicações, Aveiro, Portugal, May 2007.
11. Modelos Cinéticos de tipo BGK (Bhatnagar, Gross, Krook) para gases quimicamente activos, Centro de Matemática da Universidade de Coimbra, Coimbra, Portugal, April 2007.
10. NavierStokes description of a reactive BGK model, Dipartimento di Matemática Politecnico di Torino, Turim, Italy, June 2005.
9. Some results in the kinetic theory for chemically reacting gases (Alguns estudos em teoria cinética dos gases quimicamente activos), Officina Mathematica, University of Minho, April 2005.
8. Extended BGK models for strong and kinetic chemical regimes, Dipartimento di Matematica, Politecnico di Torino, Turin, Italy, February 2005.
7. On the global wellposedness of discrete Boltzmann systems with bimolecular chemical reaction, Dipartimento di Matematica, Politecnico di Torino, Turin, Italy, January 2005.
6. Modelos para gases quimicamente activos sujeitos a efeitos dissipadores, Department of Mathematics, University of Coimbra, January 2004.
5. Modelos discretos da equação de Boltzmann para gases quimicamente activos, Department of Mathematics, University of Minho, May 1999.
4. On the discrete Boltzmann equation for chemically reacting gases, Institut fur Theoretiche Physik, Technische Universitat, Graz, Austria, May 1997.
3. Detonation waves in discrete kinetic theory (Onde di Detonazione in Teoria Cinética Discreta), Dipartimento di Matematica, Politecnico di Torino, Turin, Italy, April 1995.
2. Some problems and questions about Detonation (Alcuni Problemi e Questioni sulla Detonazione), Dipartimento di Matematica, Politecnico di Torino, Turin, Italy, March 1994.
1. A Particular Discrete Model in Kinetic Theory of Gases, Dipartimento di Matematica, Università di Genova, Genoa, Italy, June 1992.
Outras comunicações orais
[Scientific Meetings]
16. Hydrodynamic analysis of sound wave propagation in a reactive mixture confined between two parallel planes, XIII Congresso IberoAmericano de Engenharia Mecânica, Lisbon, Portugal, October 2326, 2017.
15. Transport properties in chemically reactive mixtures of dilute gases, International Conference on Statistical Physics  SigmaPhi, July 1014, 2017.
14. Kinetic modeling and applications of chemically reactive mixturesStatistical dynamics of complex systems, Arrabida, Portugal, July 13, 2013.
13. Influence of reaction heat on time dependent processes in a chemically reacting binary mixture, 28th International Symposium on Rarefied Gas Dynamics, 913 July 2012, Saragoza, Spain.
12. Transport Properties of a Kinetic Model for Chemical Reactions without Barriers, 27th International Symposium on Rarefied Gas Dynamics, 1015 July 2010, Pacific Grove, California, USA.
11. From the transport coefficients of a relaxation kinetic model to harmonic wave solutions, 21st International Conference on Transport Theory, Turin, Italy, 1217 July 2009.
10. A Kinetic Model for Chemical Reactions without Barriers, 26th International Symposium on Rarefied Gas Dynamics, 2126 July 2008, Kyoto, Japan.
9. A Kinetic Approach to Propagation and Stability of Detonation Waves, 26th International Symposium on Rarefied Gas Dynamics, 2126 July 2008, Kyoto, Japan.
8. The contribution of the reaction heat to the nonequilibrium effects of chemically reacting gases", XIV International Conference WASCOM 2007, Ragusa, Italy.
7. The effect of the affinity on the equilibrium behaviour of a reactive system, 25th International Symposium on Rarefied Gas Dynamics, S. Petersburg, Russia, 2126 July 2006.
6. Global solutions of Boltzmanntype equations with threebody chemical interactions, XIII WASCOM, Catania, Italy, June 2005.
5. A reactive BGKtype model: influence of elastic collisions and chemical interactions, 24th RGD Symposium, Bari, Italy, July 2004.
4. Firstorder kinetic approximation for a reactive flow, XII WASCOM, Cagliari, Italy, June 2003.
3. A NavierStokes model for chemically reacting gases, XI WASCOM, Porto Ercole, Italy, June 2001.
2. Numerical Simulations of a Boltzmann Model for Reacting Gases, 2nd Meeting on Numerical Methods for Differential Equations, Coimbra, February de 1998.
1. A Discrete Velocity Model for a Steady Detonation Wave Problem, XV Conference AIDAA, Turin, Italy, November 1999.