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General Info

Institution:
Instituto Superior Técnico
Department:
Departamento de Engenharia Civil, Arquitectura e Ambiente
Research Group:
Hydraulics
Ciência ID:
961E-E413-3B88
Orcid:
https://orcid.org/0000-0002-0060-0159
Research ID:
https://www.webofscience.com/wos/author/record/1933720
Scopus ID:
https://www.scopus.com/authid/detail.uri?authorId=7101719919
ResearchGate:
https://www.researchgate.net/profile/Jorge-Matos-5

Contact Info

Email:
jorge.matos@tecnico.ulisboa.pt

Jorge de Saldanha Gonçalves Matos

Associate Professor

Domain of activity:

  • Hydraulic Structures;
  • Fluid Mechanics;
  • Environmental Hydraulics.

Present research topics:

  • Air-water flows;
  • Non-conventional spillways (e.g., stepped and PKW spillways);
  • Energy dissipation;
  • Experimental and numerical modelling in hydraulic structures;
  • Re-aeration in hydraulic structures and drainage systems.
Title Authors Year Volume DOI Journal Impact factor Clar.Analytics CERIS Members
Air–water flow in a plain stilling basin below smooth and stepped chutes Stojnic, I.; Pfister, M.; Matos, J.; Schleiss, A.J. 2023 V. 61, n.º 1(51-66 10.1080/00221686.2022.2106593 Journal of Hydraulic Research/De Recherches Hydrauliques Jorge de Saldanha Gonçalves Matos, Ivan Stojnic
Extreme Pressures and Risk of Cavitation in Steeply Sloping Stepped Spillways of Large Dams Matos, J.; Novakoski, C.K.; Ferla, R.; Marques, M.G.; Dai Prá, M.; Canellas, A.V.B.; Teixeira, E.D. 2022 V. 14, n.º 3 (art. 306) 10.3390/w14030306 Water 3.530 Jorge de Saldanha Gonçalves Matos
Experimental Investigation of Air Bubble Curtain Effects on Water Wave Field Neves, D.R.C.B.; Brito, M.; Pires-Silva, A.A.; Fortes, C.J.; Matos, J. 2022 V. 415 DDF(81-99 10.4028/p-9jm010 Defect and Diffusion Forum 0.483 Diogo Rúben Castelo Branco das Neves, Jorge de Saldanha Gonçalves Matos, Moisés Gonçalves de Brito
Smooth and Stepped Converging Spillway Modeling Using the SPH Method Nóbrega, J.D.; Matos, J.; Schulz, H.E.; Canelas, R.B. 2022 V. 14, n.º 19 (art. 3103) 10.3390/w14193103 Water 3.530 Ricardo Jorge Fonseca Canelas, Jorge de Saldanha Gonçalves Matos
Velocity Measurements in Highly Aerated Flow on a Stepped Chute without Sidewall Constraint Using a BIV Technique Sánchez-Juny, M.; Estrella, S.; Matos, J.; Bladé, E.; Martínez-Gomariz, E.; Bonet Gil, E. 2022 V. 14, n.º 16 (art. 2587) 10.3390/w14162587 Water 3.530 Jorge de Saldanha Gonçalves Matos
Plain Stilling Basin Performance below 30° and 50° Inclined Smooth and Stepped Chutes Stojnic, I.; Pfister, M.; Matos, J.; Schleiss, A.J. 2022 V. 14, n.º 23 (art. 3976) 10.3390/w14233976 Water 3.530 Jorge de Saldanha Gonçalves Matos, Ivan Stojnic
Bottom-pressure development due to an abrupt slope reduction at stepped spillways Tehrani, M.J.O.M.; Matos, J.; Pfister, M.; Schleiss, A.J. 2022 V. 14, n.º 1 (art. 41) 10.3390/w14010041 Water 3.530 Jorge de Saldanha Gonçalves Matos
CFD Modeling of Scale Effects on Free-Surface Flow over a Labyrinth Weir and Spillway Torres, C.; Borman, D.; Matos, J.; Neeve, D. 2022 V. 148, n.º 7 (art. 4022011) 10.1061/(ASCE)HY.1943-7900.0001989 Journal of Hydraulic Engineering 2.785 Jorge de Saldanha Gonçalves Matos
Blockage Probability Modeling of Large Wood at Reservoir Spillways With Piers Furlan, P.; Pfister, M.; Matos, J.; Amado, C.; Schleiss, A.J. 2021 V. 57, n.º 8 (art. e2021WR029722) 10.1029/2021WR029722 Water Resources Research 5.240 Jorge de Saldanha Gonçalves Matos, Paloma Furlan
Design examples of stilling basins downstream of stepped spillways [Bemessungsbeispiele von Tosbecken unterhalb von Treppenschussrinnen] Stojnic, I.; Pfister, M.; Matos, J.; De Cesare, G.; Schleiss, A.J. 2021 V. 111, n.º 1 (18-24) 10.1007/s35147-020-0777-0 WasserWirtschaft Jorge de Saldanha Gonçalves Matos
Effect of 30-Degree Sloping Smooth and Stepped Chute Approach Flow on the Performance of a Classical Stilling Basin Stojnic, I.; Pfister, M.; Matos, J.; Schleiss, A.J. 2021 V. 147, n.º 2 (art. 4020097) 10.1061/(ASCE)HY.1943-7900.0001840 Journal of Hydraulic Engineering 2.817 Jorge de Saldanha Gonçalves Matos
Design examples of stilling basins downstream of stepped spillways Stojnic, I; Pfister, M; Matos, J; Cesare, GD; Schleiss, AJ 2021 V. 111, n.º 1(18-24 WasserWirtschaft Jorge de Saldanha Gonçalves Matos
Numerical modeling of free and submerged labyrinth weir flow for a large sidewall angle Carrillo, J.M.; Matos, J.S.G.; Lopes, R. 2020 V. 20, (357-374) , April. 10.1007/s10652-019-09701-0 Environmental Fluid Mechanics 1,512 Jorge de Saldanha Gonçalves Matos
Statistical accuracy for estimations of large wood blockage in a reservoir environment Furlan, P.; Pfister, M.; Matos, J.S.G.; Amado, C.; Schleiss, A.J. 2020 V. 20, (579-592) , June. 10.1007/s10652-019-09708-7 Environmental Fluid Mechanics 1,512 Jorge de Saldanha Gonçalves Matos
Smooth and stepped spillway modeling using the SPH method Nóbrega, J.D.; Matos, J.; Schulz, H.E.; Canelas, R.B. 2020 v. 146 Issue 8, August 10.1061/(ASCE)HY.1943-7900.0001776 Journal of Hydraulic Engineering 1,993 Jorge de Saldanha Gonçalves Matos
Bemessung von klassischen Tosbecken unterhalb von Treppenschussrinnen (“Design examples of stilling basins downstream of stepped spillways”) Stojnic I., Pfister M., Matos J.; De Cesare, G.; Schleiss, A.J. 2020 vol. 112, no. 3, pp. 165-170 (in German) Wasser Energie Luft Jorge de Saldanha Gonçalves Matos
Hydraulic design of classical stilling basins downstream of stepped chutes Stojnic, I.; Pfister, M.; Matos, J.; De Cesare, G.; Schleiss, A.J. 2020 V. 27, n.º 5, (46-54) , May. The International Journal of Hydropower & Dams Jorge de Saldanha Gonçalves Matos
Experimental repetitions and blockage of large stems at ogee crested spillways with piers Furlan, P.; Pfister, M.; Matos, J.S.G.; Amado, C.; Schleiss, A.J. 2019 V. 57, n.º 2, 250-262, March. 10.1080/00221686.2018.1478897 Journal of Hydraulic Research/De Recherches Hydrauliques 2,098 Jorge de Saldanha Gonçalves Matos
Influence of VOF technique, turbulence model and discretization scheme on the numerical simulation of the non-aerated, skimming flow in stepped spillways Bayon, A.; Toro, J.P.; Bombardelli, F.A.; Matos, J.S.G.; López-Jiménez, P.A. 2018 V. 19, 137-149, March 10.1016/j.jher.2017.10.002 Journal of Hydro-Environment Research 2,548 Jorge de Saldanha Gonçalves Matos
Student Name Supervisor External Supervisor Co-Supervisors External Co-Supervisor #1 External Co-Supervisor #2 Title PhD Programme Universities Granting Title Funding Institution Scholarship Total PhD Funding PhD Funding for CERIS Begining Date End Date Year
PDF Duncan Borman Jorge de Saldanha Gonçalves Matos Andy Sleigh Modelling of hydraulic structures involving free surface, secondary flows and air entrainment. Civil Engineering University of Leeds (United Kingdom) Industry Funding – Hydrotec Consultants, Ltd. (Portugal) 43466 ongoing
PDF Marcelo Giulian Marques Jorge de Saldanha Gonçalves Matos Study in a stilling basin with an end sill downstream of a stepped spillway: design criteria. Water Resources and Environmental Sanitation UFRGS – Federal University of Rio Grande do Sul (Brazil) Dona Francisca Energética (Brazil) 2014/00/00 44896 2022
PDF Marcelo Giulian Marques Jorge de Saldanha Gonçalves Matos Extreme pressures and risk of cavitation in steeply sloping stepped spillways of large dams. Hydraulic Engineering and Sanitation UFRGS – Federal University of Rio Grande do Sul (Brazil) 41494 43909 2020
PDF Ivan Stojnic Jorge de Saldanha Gonçalves Matos Eugen Brühwiler Stilling Basin Performance Downstream of Stepped Spillways. Civil Engineering IST – Instituto Superior Técnico (Portugal) FCT – Fundação para a Ciência e a Tecnologia FCT scholarship PD/BD/113621/2015 - H2DOC PhD program 42254 43803 2019
PDF Jorge de Saldanha Gonçalves Matos Harry Edmar Schulz Skimming flow over stepped spillways with non-converging and converging sidewalls using Smoothed Particles Hydrodynamics Method. Civil Engineering IST – Instituto Superior Técnico (Portugal) CAPES (Brazil), CNPq – The National Council for Scientific and Technological Development, Erasmus Mundus Action 2 – SMART2 41806 43427 2018
PDF Paloma Furlan Jorge de Saldanha Gonçalves Matos Anton J. Schleiss Blocking probability of large wood and resulting head increase at ogee crest spillways. Civil Engineering IST – Instituto Superior Técnico (Portugal) FCT – Fundação para a Ciência e a Tecnologia FCT scholarship PD/BD/52664/2014 - H2DOC PhD program 41964 43413 2018
Name Reference Type PI Names CERIS Coordinator Research Group Other CERIS Members Leading Institution Other Institutions Funding Institutions Total Funding Funding for Ceris Beginning Date End Date State Website
PDF HY4RES – Hybrid solutions for Renewable Energy Systems: achieving net-zero Atlantic area energy consumers & communities EAPA_0001/2022 International Helena Margarida Machado da Silva Ramos Dídia Isabel Cameira Covas, Maria Manuela Portela Correia dos Santos Ramos da Silva, Jorge de Saldanha Gonçalves Matos Trinity College Dublin (Ireland) EU Interreg Atlantic Area 3200498,9 281625 2023/12/01 2026/11/30
PDF REDAWN – Reducing Energy Dependency in Atlantic Area Water Networks EAPA_198/2016 International Helena Margarida Machado da Silva Ramos Helena Margarida Machado da Silva Ramos Dídia Isabel Cameira Covas, Maria Manuela Portela Correia dos Santos Ramos da Silva, Jorge de Saldanha Gonçalves Matos Action Renewables Ltd (United Kingdom) EU Interreg Europe 2900000 575814,95 2017/06/22 2022/05/30 https://www.redawn.eu/
PDF STEEP STREAMS – Solid Transport Evaluation and Efficiency in Prevention: Sustainable Techniques of Rational Engineering and Advanced Methods WATERJPI/0006/2014 International António Heleno Cardoso Ricardo Jorge Fonseca Canelas, Jorge de Saldanha Gonçalves Matos, Sabrina Mennino University of Trento (Italy) ERA-NET Cofund WaterWorks2014 669244 149580 2016/05/18 2018/05/18