Duygu Ergenç

Departamento/línea: Geomateriales

Sublínea de investigación del IGEO: Deterioro y conservación de materiales geológicos del patrimonio


Áreas de investigación:

 

  • Los morteros romanos en el mediterraneo y morteros de reparación

Publicaciones más relevantes de los últimos años:

  • Ergenç, D. Fort, R. Accelerating carbonation in lime-based mortar in high CO2 environments, Construction and Building Materials (24/08/2018), 188: 314-325, https://doi.org/10.1016/j.conbuildmat.2018.08.125
  • Ergenç, D. Gómez-Villalba, L.S., Fort, R. Crystal development during carbonation of lime-based mortars in different environmental conditions, Materials Characterization (/29/05/2018) 142: 276-288 https://doi.org/10.1016/j.matchar.2018.05.043
  • Ergenç, D. Fort, R. Veiga, R. Santos Silva, A., Sanz Arauz, D. Effects of the DiloCarB as carbonation accelerator on the properties of lime mortars. Materials and Structures. Materials and Structures (02/01/2018)51:10 https://doi.org/10.1617/s11527-018-1140-0
  • Ergenç, D. La Russa, M.F. Ruffolo, S.A. Fort, R. Sánchez Montes, A.L. Characterization of the wall paintings in La Casa de los Grifos of Roman city Complutum, The European Physical Journal Plus, “New Challenges in the Scientific Applications to Cultural Heritage” edited by M. Fedi, L. Liccioli, et al. 133: 355, DOI 10.1140/epjp/i2018-12223-7
  • Martinez-Garrido, M.I. Ergenç, D. Fort, R. Wireless Monitoring To Evaluate The Effectiveness of Roofing Systems Over Archaeological Sites. Sensors and Actuators A Physical (01/12/2016), DOI: 10.1016/j.sna.2016.10.038


Jorge Feijoo Conde

Departamento/línea: Geomateriales

Sublínea de investigación del IGEO: Deterioro y Conservación de Materiales Geológicos en el Patrimonio Cultural


Áreas de investigación:

 


Publicaciones más relevantes de los últimos años:

  • Desarrollo y optimización de técnicas de desalación.
  • Evaluación de la eficacia e idoneidad de productos consolidantes e hidrofugantes.
  • Desarrollo de técnicas no destructivas para aplicación en patrimonio
  • Recuperación y concentración de elementos iónicos en medios densos.
  • Ingeniería medioambiental.
  • Electroquímica aplicada.
    • FEIJOO, J., RIVAS, T., NÓVOA, X. R., & OTTOSEN, L. M. (2018) New Double Electrode System for the Electrochemical Desalination of Building Stones, International Journal of Architectural Heritage, DOI: 10.1080/15583058.2018.1561962
    • FEIJOO, J., NÓVOA, X. R., RIVAS, T. (2018). Electrokinetic treatment to increase bearing capacity and durability of a granite. Materials and Structures (2017) 50:251. DOI:10.1617/s11527-017-1123-6
    • FEIJOO, J., NÓVOA, X. R., RIVAS, T., & OTTOSEN, L. M. (2018). Enhancing the efficiency of electrochemical desalination of stones: a proton pump approach. Materials and Structures, 51(4). DOI: 10.1617/s11527-018-1224-x
    • FEIJOO, J., OTTOSEN, L. M., NÓVOA, X. R., RIVAS, T., DE ROSARIO, I. (2017). An improved electrokinetic method to consolidate porous materials. Materials and Structures, 50(3):1-16. DOI: 10.1617/s11527-017-1063-1
    • FEIJOO, J.; MATYŠČÁK, O.; OTTOSEN, L.M.; RIVAS, T.; NÓVOA, X.R. (2017). Electrokinetic desalination of protruded areas of stone avoiding the direct contact with electrodes. Materials and Structures 50(82):1-15. DOI: 10.1617/s11527-016-0946-x


Antonio Castro Dorado

Departamento/línea: Dinámica Terrestre y Observación de la Tierra

Sublínea de investigación del IGEO Geoquímica y Evolución Tectonomagmática de la Tierra


Áreas de investigación:

  • Geoquímca experimental de sistemas magmáticos
  • Origen de magmas en márgenes de placa activos
  • Petrología de rocas graníticas
  • Magmatismo de la Cadena Varisca Europea

 


Publicaciones más relevantes de los últimos años:

  • Rodríguez, C.; Castro, A.2018. Origin of enclaves and enclave swarms in granites: Field and geochemical relations GSA bulletin. pp.1-26.26. doi.org/10.1130/B32028.1
  • Fernández, C.; Castro, A.2018. Mechanical and structural consequences of magma differentiation at ascent conduits: A possible origin for some mafic microgranular enclaves in granites. Lithos, 320-321, pp.49-61.
  • Rodríguez, C.; Castro, A.2017. Silicic magma differentiation in ascent conduits. Experimental constraints. Lithos, 272-273, pp.261-277
  • Zhang, J.; et al. 2016. Multiple mixing and hybridization from magma source to final emplacement in the Permian Yamatu Pluton, the Northern Alxa Block, China. Journal of Petrology, 57-5, pp.933-980.
  • García-Arias, M.; et al. 2015. Water-present melting in the middle crust: The case of the Ollo de Sapo gneiss in the Iberian Massif (Spain). Chemical Geology, 419, pp.176-191.
  • Castro, A.; Díaz-Alvarado, J.; Fernández, C.2014. Fractionation and incipient self-granulitization during deep-crust emplacement of Lower Ordovician Valle Fértil batholith at the Gondwana active margin of South America. Gondwana Research, 25-2, pp.685-706.
  • Shi, X.; et al. 2014. Timing, petrogenesis and tectonic setting of the Late Paleozoic gabbro-granodiorite-granite intrusions in the Shalazhashan of northern Alxa: Constraints on the southernmost boundary of the Central Asian Orogenic Belt. Lithos, 208, pp.158-177.
  • Martí, J.; et al. 2013. Correlation of magma evolution and geophysical monitoring during the 2011-2012 El Hierro (Canary Islands) submarine eruption. Journal of Petrology, 54-7, pp.1349-1373.
  • Castro, A.; Vogt, K.; Gerya, T.2013. Generation of new continental crust by sublithospheric silicic-magma relamination in arcs: A test of Taylor's andesite model. Gondwana Research. 23-4, pp.1554-1566.
  • Castro, A.; et al. 2013. Late Eocene-Oligocene post-collisional monzonitic intrusions from the Alborz magmatic belt, NW Iran. An example of monzonite magma generation from a metasomatized mantle source. Lithos, 180-181, pp.109-127.
  • Castro, A.2013. Tonalite-granodiorite suites as cotectic systems: A review of experimental studies with applications to granitoid petrogenesis. Earth-Science Reviews, 124, pp.68-95.
  • Castro, A.; T. Gerya; A. García-Casco; C. Fernández; J. Díaz-Alvarado; I. Moreno-Ventas; I. Löw. 2010. Melting relations of MORB-sediment mélanges in underplated mantle wedge plumes; Implications for the origin of Cordilleran-type batholiths. Journal of Petrology, 51 - 6, pp. 1267-1295.
  • A. Castro; T.V. Gerya. 2008. Magmatic implications of mantle wedge plumes: Experimental study. Lithos, 103 - 1-2, pp. 138 - 148