Inicio > PADILLA MARCOS, MIGUEL ANGEL

PADILLA MARCOS, MIGUEL ANGEL

[][com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=60838]], camposKey:0378-7788 2021-01-01 Three-dimensional characterization of air infiltration using infrared thermography00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=61569]], camposKey:0360-1323 2020-10-01 Residential buildings airtightness frameworks: A review on the main databases and setups in Europe and North America00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=61570]], camposKey:1473-3315 2020-01-01 Airtightness and energy impact of air infiltration in residential buildings in Spain00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=46788]], camposKey:0378-7788 2019-04-01 Energy impact of the air infiltration in residential buildings in the Mediterranean area of Spain and the Canary islands226238, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=46789]], camposKey:1420-326X 2019-03-01 Effects of the radiant heating system location on both the airflow and ventilation efficiency in a room372383, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=46790]], camposKey:0360-1323 2019-01-15 Airtightness of residential buildings in the Continental area of Spain299308, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=46787]], camposKey:0378-7788 2019-01-01 Air infiltration monitoring using thermography and neural networks187199, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=46791]], camposKey:1744-2591 2019-01-01 Assessment of the ventilation efficiency in the breathing zone during sleep through computational fluid dynamics techniques458483, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=48290]], camposKey:1996-3599 2019-01-01 Ventilation efficiency assessment according to the variation of opening position in L-shaped rooms00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=37806]], camposKey:2374-4731 2018-03-15 Experimental validation of the age-of-the-air CFD analysis: A case study110, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=48291]], camposKey:1673-565X 2018-01-01 A new application model of building ventilation with light shafts: a proposal based on case study assessment796810, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=37807]], camposKey:0143-6244 2018-01-01 Computational fluid dynamics evaluation of the furniture arrangement for ventilation efficiency00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=37808]], camposKey:1757-8981 2017-11-04 Natural Ventilation of Buildings through Light Shafts. Design-Based Solution Proposals00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=11407]], camposKey:0360-1323 2017-10-01 Ventilation rate determination method for residential buildings according to TVOC emissions from building materials555563, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=11408]], camposKey:1996-1073 2017-04-01 Methodology applied to the evaluation of natural ventilation in residential building retrofits: A case study00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=11409]], camposKey:1996-1073 2017-01-01 Proposal for a simplified CFD procedure for obtaining patterns of the age of air in outdoor spaces for the natural ventilation of buildings00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=11410]], camposKey:0143-6244 2017-01-01 The effects of wind velocity and building geometry on air change efficiency in light shafts: Case studies520, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=10581]], camposKey:0020-0883 2016-04-01 Evaluation, design and proposals for ventilation systems in refurbishment of Spanish residential buildings: Case study00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=10579]], camposKey:1473-3315 2016-01-01 Confined-air quality based on the geometric efficiency of urban outdoor spaces. Cases study1530, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=10584]], camposKey:0143-6244 2016-01-01 Wind velocity effects on the quality and efficiency of ventilation in the modelling of outdoor spaces. Case studies3350, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=10582]], camposKey:0020-0883 2015-10-01 Isothermal efficiency for outdoor ventilation models of courtyards in residential buildings. Case study00][][][][][][][][][][][][][][][][][][][com.sigma.investigacion.cawdos.utilidades.CongresoYSusAsociaciones@d44e935, com.sigma.investigacion.cawdos.utilidades.CongresoYSusAsociaciones@272a9d61, com.sigma.investigacion.cawdos.utilidades.CongresoYSusAsociaciones@5ec25f5d, com.sigma.investigacion.cawdos.utilidades.CongresoYSusAsociaciones@2b030345][][com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3df0ad, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3df3aa, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3df0ae, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3df3cb, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3df0b6, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3df1e4][][][][][][com.sigma.fs3.argos.domain.gpc.GpcPatents[id=com.sigma.fs3.argos.domain.gpc.GpcPatentsPK[ifcactivitat=PAT, ifccomptador=1015]]][][com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@463269], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@414ebd], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@463268], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@412490], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@411fd7]][][][com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@15611, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@154cd, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@14fc8, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@1538c, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@14c22, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@14e3a, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@14661, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@14686][]

AYUDA A LA INVESTIGACIÓN

PUBLICACIONES

Artículos de revista (21)

Gil-Valverde R.; Tamayo-Alonso D.; Royuela-del-Val A.; Poza-Casado I.; Meiss A.; Padilla-Marcos M.A. Three-dimensional characterization of air infiltration using infrared thermography . Energy and Buildings 2021; 233.

Enlace a la publicación
Ver Todos
 

AYUDA A LA INVESTIGACIÓN

Proyectos (5)

RECUPERACIÓN DE ENERGÍA EN LA VENTILACIÓN DE LOS ESPACIOS DOCENTES UNIVERSITARIOS. REVEDUVA. Equipo Investigadores: PADILLA MARCOS, MIGUEL ANGEL (IP); MEISS RODRIGUEZ, ALBERTO JOSE; FEIJO MUÑOZ, JESUS; POZA CASADO, IRENE; GIL VALVERDE, RAQUEL; JIMENO MERINO, HÉCTOR. Personal Contratado: GIL VALVERDE, RAQUEL. Entidades Participantes: UNIVERSIDAD DE VALLADOLID (UVa). Entidades Financiadoras: U.T.E. DUQUES DE SORIA, UNIVERSIDAD DE VALLADOLID (UVa). 01/10/2019-30/06/2021
Ver Todos

Convenios (6)

ENSAYOS EN LABORATORIO DE DISPOSITIVO O COMPONENTE. . Equipo Investigadores: MEISS RODRIGUEZ, ALBERTO JOSE (IP); PADILLA MARCOS, MIGUEL ANGEL. Entidades Participantes: FUNDACION GENERAL DE LA UNIVERSIDAD DE VALLADOLID.. Entidades Financiadoras: AESCAI.. 2021-07-01
Ver Todos
 

OTROS

Congresos (4)

ASISTENCIA: 8 TH TIGVENT & 6TH VENTICOOL CONFERENCE, gante ( BÉLGICA ) 15/10/2019 -
(Conferencia invitada). PADILLA MARCOS, MIGUEL ANGEL. ASISTENCIA: 8 TH TIGVENT & 6TH VENTICOOL CONFERENCE
Ver Todos

Patentes (1)

Miguel Angel Padilla Marcos. Aula Taller Itinerante para la impartición y docencia en el área de las TIC. P-201100971. 2017
Ver Todos
Cargando información ...
Universidad de Valladolid - Copyright Universidad de Valladolid - Todos los derechos reservados