Martinez Carrascal, Jon jon.martinez@upm.es
Publications
- Articles 11
- Books 0
- Book chapters 0
- Conferences 7
- Working papers 0
- Technical reports 0
- Research projects 3
- Supervised theses 0
- Patent or software license 0
Loads-based optimal fuel-usage strategy by using a neural-network-based reduced-order model for vertical sloshing
- Nerattini, Alessia
- Pizzoli, Marco
- Martinez-Carrascal, Jon
- Saltari, Francesco
- Miguel Gonzalez-Gutierrez, Leo
- Mastroddi, Franco
Aerospace Science And Technology - 1/9/2024
10.1016/j.ast.2024.109408 View at source
- ISSN 00341223
Sloshing reduced-order model trained with Smoothed Particle Hydrodynamics simulations
- Martinez-Carrascal, J
- Pizzoli, M
- Saltari, F
- Mastroddi, F
- González-Gutiérrez, LM
Nonlinear Dynamics (p. 21099-21115) - 3/10/2023
10.1007/s11071-023-08940-7 View at source
- ISSN 0924090X
Computational scaling of SPH simulations for violent sloshing problems in aircraft fuel tanks
- Calderon-Sanchez, Javier
- Martinez-Carrascal, Jon
- Gonzalez, Leo Miguel;
Acta Mechanica Sinica - 1/1/2023
10.1007/s10409-022-22051-x View at source
- ISSN 05677718
Experimental and Numerical Characterization of Violent Sloshing Flows Using a Single Degree of Freedom Approach
- Martinez-Carrascal, Jon
- Gonzalez-Gutierrez, L. M.
- Calderon-Sanchez, Javier;
Applied Sciences-Basel - 1/1/2022
10.3390/app12157897 View at source
- ISSN 20763417
Nonlinear reduced-order model for vertical sloshing by employing neural networks
- MARTINEZ CARRASCAL, JON
Nonlinear Dynamics (p. 1469-1478) - 1/1/2022
10.1007/s11071-021-06668-w View at source
- ISSN 0924090X
- iMarina
- iMarina
On the experimental scaling and power dissipation of violent sloshing flows
- Martinez-Carrascal J
- Gonzalez LM
Journal Of Fluids And Structures - 1/1/2022
10.1016/j.jfluidstructs.2022.103763 View at source
- ISSN 08899746
A global analysis of a coupled violent vertical sloshing problem using an SPH methodology
- Calderon-Sanchez, J.
- Martinez-Carrascal, J.
- Gonzalez-Gutierrez, L. M.
- Colagrossi, A.;
Engineering Applications Of Computational Fluid Mechanics (p. 865-888) - 1/1/2021
10.1080/19942060.2021.1921849 View at source
- ISSN 19942060
Extended computation of the viscous Rayleigh-Taylor instability in a horizontally confined flow
- Martinez-Carrascal, Jon
- Calderon-Sanchez, J.
- Gonzalez-Gutierrez, L. M.
- de Andrea Gonzalez, A.;
Physical Review e - 1/1/2021
10.1103/physreve.103.053114 View at source
- ISSN 1063651X
Numerical study on the dissipation mechanisms in sloshing flows induced by violent and high-frequency accelerations. II. Comparison against experimental data
- Marrone, S.
- Colagrossi, A.
- Calderon-Sanchez, J.
- Martinez-Carrascal, J.;
Physical Review Fluids - 1/1/2021
10.1103/physrevfluids.6.114802 View at source
- ISSN 2469990X
Experimental study of the liquid damping effects on a SDOF vertical sloshing tank
- Martinez-Carrascal J
- González-Gutiérrez LM
Journal Of Fluids And Structures - 1/1/2021
10.1016/j.jfluidstructs.2020.103172 View at source
- ISSN 08899746
This researcher has no books.
This researcher has no book chapters.
An Experimental and numerical approach to a single degree of freedom violent sloshing tank
- MARTINEZ CARRASCAL, JON
24/1/2022
- iMarina
OVERVIEW OF SINGLE DEGREE OF FREEDOM EXPERIMENTS OF VERTICAL SLOSHING FLOWS INSIDE SCALED TANKS
- Martinez-Carrascal J
- Constantin L
- Pizzoli M
- Gonzalez LM
- Titurus B
- Cooper JE
- Coppotelli G
Proceedings Of The International Forum Of Aeroelasticity And Structural Dynamics 2022, Ifasd 2022 - 1/1/2022
- iMarina
Experiments and scaling effects in the context of a SDOF vertical sloshing problem
- MARTINEZ CARRASCAL, JON
1/9/2021
- iMarina
Rayleigh-Taylor Instability with a delta-SPH multiphase formulation: comparison with linear stability analysis.
- MARTINEZ CARRASCAL, JON
8/6/2021
- iMarina
Experimental study of the damping effects on a SDOF sloshing tank
- MARTINEZ CARRASCAL, JON
2/9/2020
- iMarina
Prediction of energy dissipation in violent sloshing flows simulated by Smoothed Particle Hydrodynamics.
- MARTINEZ CARRASCAL, JON
2/9/2020
- iMarina
This researcher has no working papers.
This researcher has no technical reports.
ESTUDIO DE OPTIMACIÓN DEL COMPORTAMIENTO EN BALANCE DEL BUQUE OCEANOGRÁFICO DE 69,80 M DE ESLORA (CONSTRUCCIÓN V145) , MEDIANTE UN TANQUE ESTABILIZADOR PASIVO
- SOUTO IGLESIAS, ANTONIO (Investigador principal (IP))
- MARTINEZ CARRASCAL, JON (Colaborador/a)
- ABAD ARROYO, RICARDO (Colaborador/a)
- CALDERON SANCHEZ, JAVIER (Investigador principal (IP))
Period: 08-03-2023 - 05-06-2023
Type of funding: Internal
- iMarina
Nuevas herramientas y modelos para predecir la progresión de la enfermedad cardíaca y la respuesta al tratamiento
- ABADIA HEREDIA, SANTOS RODRIGO (Miembro del equipo de trabajo)
- GARICANO MENA, JESUS (Investigador principal (IP))
- LE CLAINCHE MARTINEZ, SOLEDAD (Investigador principal (IP))
- IAN HETHERINGTON, ASHTON (Miembro del equipo de trabajo)
- SOLE MIRO, POL (Miembro del equipo de trabajo)
- BELL NAVAS, ANDRES (Miembro del equipo de trabajo)
- LAZPITA SUINAGA, ENEKO (Miembro del equipo de trabajo)
- MARTINEZ CARRASCAL, JON (Participante)
- FERRER VACCAREZZA, ESTEBAN (Participante)
- PEREZ PEREZ, JOSE MIGUEL (Participante)
- CORROCHANO CALCERRADA, ADRIAN (Miembro del equipo de trabajo)
- SAAVEDRA LAGO, LAURA (Participante)
Period: 01-12-2022 - 30-11-2024
Type of funding: National
Amount of funding: 300380,00 Euros.
- iMarina
Sloshing Wing Dynamics
- CALDERON SANCHEZ, JAVIER (Participante)
- SOUTO IGLESIAS, ANTONIO (Participante)
- MARTINEZ CARRASCAL, JON (Participante)
- GONZALEZ GUTIERREZ, LEO MIGUEL (Investigador principal (IP))
Period: 01-09-2019 - 31-08-2023
Type of funding: International
Amount of funding: 276342,50 Euros.
- iMarina
This researcher has no supervised thesis.
This researcher has no patents or software licenses.
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