Inicio > FERNANDEZ POLANCO IÑIGUEZ DE LA TORRE, MARIA

FERNANDEZ POLANCO IÑIGUEZ DE LA TORRE, MARIA

PROFESORES TITULARES DE UNIVERSIDAD
Ingeniería Química y Tecnología del Medio Ambiente
TECNOLOGÍA AMBIENTAL
 
maria@iq.uva.es
0

Índice H en Web of Science: 21
Índice H en Scopus: 25
 
Enlazar esta página

[][com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=58138]], camposKey:0306-2619 2020-12-15 Effect of operating pressure on direct biomethane production from carbon dioxide and exogenous hydrogen in the anaerobic digestion of sewage sludge00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=52312]], camposKey:1687-806X 2019-01-01 Energy Integration in Wastewater Treatment Plants by Anaerobic Digestion of Urban Waste: A Process Design and Simulation Study00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40954]], camposKey:0960-8524 2019-01-01 H2 addition through a submerged membrane for in-situ biogas upgrading in the anaerobic digestion of sewage sludge18, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40957]], camposKey:0956-053X 2018-06-01 Hydrodynamics of high solids anaerobic reactor: Characterization of solid segregation and liquid mixing pattern in a pilot plant VALORGA facility under different reactor geometry306314, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=39824]], camposKey:0960-8524 2018-01-01 Evaluation of process performance, energy consumption and microbiota characterization in a ceramic membrane bioreactor for ex-situ biomethanation of H-2 and CO2142150, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=39368]], camposKey:0039-9140 2018-01-01 Multiresidue analytical method for pharmaceuticals and personal care products in sewage and sewage sludge by online direct immersion SPME on-fiber derivatization - GCMS506512, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40955]], camposKey:0045-6535 2018-01-01 Nitrogen removal in domestic wastewater. Effect of nitrate recycling and COD/N ratio814, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40959]], camposKey:0960-8524 2018-01-01 Recirculation of gas emissions to achieve advanced denitrification of the effluent from the anaerobic treatment of domestic wastewater758763, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40958]], camposKey:0273-1223 2018-01-01 Sequencing batch reactor process for the removal of nitrogen from anaerobically treated domestic wastewater15811590, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40956]], camposKey:1092-8758 2018-01-01 Specific Activity Bioassays as Tools to Evaluate Combined Nitrogen and Organic Matter Removal in SND Systems961970, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=39825]], camposKey:2292-8782 2017-01-01 A review on prospects and challenges of biological H2S removal from biogas with focus on biotrickling filtration and microaerobic desulfurization741750, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40960]], camposKey:0960-8524 2017-01-01 Denitrification of the anaerobic membrane bioreactor (AnMBR) effluent with alternative electron donors in domestic wastewater treatment11731179, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40962]], camposKey:1569-1705 2016-03-01 Review of solid state fermentation for lignocellulolytic enzyme production: challenges for environmental applications3146, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40961]], camposKey:0039-9140 2016-01-01 Review of lignocellulolytic enzyme activity analyses and scale-down to microplate-based assays629637, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=8260]], camposKey:0960-8524 2015-09-01 Economic analysis of microaerobic removal of H2S from biogas in full-scale sludge digesters280286, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40963]], camposKey:0734-242X 2015-03-15 Co-digestion of municipal sewage sludge and solid waste: Modelling of carbohydrate, lipid and protein content influence241249, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40964]], camposKey:0957-5820 2015-01-01 Anaerobic digestion modeling of the main components of organic fraction of municipal solid waste180187, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=54485]], camposKey:2215-017X 2015-01-01 Theoretical methane production generated by the co-digestion of organic fraction municipal solid waste and biological sludge1421, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40968]], camposKey:0273-1223 2014-01-01 Grease waste and sewage sludge co-digestion enhancement by thermal hydrolysis: Batch and fed-batch assays19111918, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40965]], camposKey:1385-8947 2014-01-01 Microaerobic control of biogas sulphide content during sewage sludge digestion by using biogas production and hydrogen sulphide concentration303311, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40969]], camposKey:0960-8524 2014-01-01 Microaerobic digestion of sewage sludge on an industrial-pilot scale: The efficiency of biogas desulphurisation under different configurations and the impact of O2 on the microbial communities338346, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40967]], camposKey:0960-8524 2014-01-01 The headspace of microaerobic reactors: Sulphide-oxidising population and the impact of cleaning on the efficiency of biogas desulphurisation6373, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40966]], camposKey:0960-8524 2014-01-01 Thermal hydrolysis integration in the anaerobic digestion process of different solid wastes: Energy and economic feasibility study1422, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=10314]], camposKey:0960-8524 2014-01-01 Where does the removal of H2S from biogas occur in microaerobic reactors?151157, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40970]], camposKey:0273-1223 2013-06-18 Working with energy and mass balances: A conceptual framework to understand the limits of municipal wastewater treatment22942301, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40971]], camposKey:1359-5113 2013-05-01 Anaerobic co-digestion of sewage sludge and grease trap: Assessment of enzyme addition936940, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40973]], camposKey:0960-8524 2013-01-01 Microaerobic desulphurisation unit: A new biological system for the removal of H2S from biogas633640, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40972]], camposKey:0960-8524 2013-01-01 The potential of oxygen to improve the stability of anaerobic reactors during unbalanced conditions: Results from a pilot-scale digester treating sewage sludge8085, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40974]], camposKey:0273-1223 2012-02-01 Optimization of municipal sludge and grease co-digestion using disintegration technologies214220, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=9596]], camposKey:0175-7598 2012-01-01 Molecular analysis of the biomass of a fluidized bed reactor treating synthetic vinasse at anaerobic and micro-aerobic conditions21812191, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=8261]], camposKey:0273-1223 2012-01-01 Robustness of the microaerobic removal of hydrogen sulfide from biogas13681374, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=8262]], camposKey:0273-1223 2012-01-01 The role of the headspace in hydrogen sulfide removal during microaerobic digestion of sludge22582264, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40975]], camposKey:0273-1223 2011-08-09 Enhancement of the conventional anaerobic digestion of sludge: Comparison of four different strategies375383, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40976]], camposKey:0268-2575 2011-08-01 Biochemical methane potential (BMP) of solid organic substrates: Evaluation of anaerobic biodegradability using data from an international interlaboratory study10881098, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=8268]], camposKey:0273-1223 2011-01-01 Determination of the optimal rate for the microaerobic treatment of several H2S concentrations in biogas from sludge digesters233238, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=8258]], camposKey:0960-8524 2011-01-01 Effect of microaerobic conditions on the degradation kinetics of cellulose1013910142, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=8259]], camposKey:0960-8524 2011-01-01 Effect of oxygen dosing point and mixing on the microaerobic removal of hydrogen sulphide in sludge digesters37683775, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40977]], camposKey:0273-1223 2010-07-20 Full-stream and part-stream ultrasound treatment effect on sludge anaerobic digestion13631372, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40978]], camposKey:1673-7415 2010-06-01 Increasing the performance of anaerobic digestion: Pilot scale experimental study for thermal hydrolysis of mixed sludge135141, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=8267]], camposKey:0960-8524 2010-01-01 Performance evaluation of oxygen, air and nitrate for the microaerobic removal of hydrogen sulphide in biogas from sludge digestion77247730, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40979]], camposKey:0273-1223 2009-12-01 Ultrasound pre-treatment for anaerobic digestion improvement15251532, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=29022]], camposKey:0211-8173 2009-01-01 Eliminación de H2S en digestión anaerobia de lodos por procesos microaerofílicos: experiencia en planta piloto5864, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=8266]], camposKey:0273-1223 2009-01-01 Hydrogen sulphide removal in the anaerobic digestion of sludge by micro-aerobic processes: pilot plant experience30453050, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40981]], camposKey:1944-3994 2009-01-01 Present and perspectives of anaerobic treatment of domestic sewage161167, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40980]], camposKey:0302-0797 2009-01-01 Turning up the heat2829, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40983]], camposKey:1569-1705 2008-06-01 Control of sulphide during anaerobic treatment of S-containing wastewaters by adding limited amounts of oxygen or nitrate93105, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40984]], camposKey:0273-1223 2008-05-28 Continuous thermal hydrolysis and energy integration in sludge anaerobic digestion plants12211226, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40982]], camposKey:0717-3458 2008-01-01 Hydrothermal multivariable approach. Full-scale feasibility study00, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=19445]], camposKey:1130-9881 2008-01-01 Tecnologías para maximizar la producción de biogás821, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=9566]], camposKey:0273-1223 2007-01-01 Nutrients removal in hybrid fluidised bed bioreactors operated with aeration cycles5158, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=40985]], camposKey:0273-1223 2006-09-11 Automated manometric method to assess anaerobic toxicity of chemicals95101, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=9593]], camposKey:0273-1223 2005-01-01 Automated equipment for anaerobic sludge parameters determination479485, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=9571]], camposKey:0273-1223 2001-01-01 Combining the biological nitrogen and sulfur cycles in anaerobic conditions7784, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=9557]], camposKey:0043-1354 2001-01-01 New process for simultaneous removal of nitrogen and sulphur under anaerobic conditions11111114, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=9568]], camposKey:0273-1223 2001-01-01 Simultaneous organic nitrogen and sulfate removal in an anaerobic GAC fluidised bed reactor1522, com.sigma.fs3.argos.domain.gpc.GpcArticlesRev[id=com.sigma.fs3.argos.domain.gpc.GpcArticlesRevPK[ifcactivitat=ARE, ifccomptador=9578]], camposKey:0273-1223 1999-01-01 Anaerobic treatment of Polyethylene Terephthalate (PET) wastewater from lab to full scale229236][CapitolsLlib{id=com.sigma.fs3.argos.domain.gpc.GpcCapitolsLlibPK[ifcactivitat=CAP, ifccomptador=22234]},camposKey: 25 55 Environment and Material Science Technology for Anaerobic Digestion-Based Circular Bioeconomy Biomass, Biofuels, Biochemical: Circular Bioeconomy: Current Developments and Future Outlook 1 2021-01-01 Elsevier, CapitolsLlib{id=com.sigma.fs3.argos.domain.gpc.GpcCapitolsLlibPK[ifcactivitat=CAP, ifccomptador=15725]},camposKey: 303 311 Aprovechamiento y purificación de biogás Ecuaciones y cálculos para el tratamiento de aguas 1 2018-01-01 Paraninfo , CapitolsLlib{id=com.sigma.fs3.argos.domain.gpc.GpcCapitolsLlibPK[ifcactivitat=CAP, ifccomptador=15724]},camposKey: 279 286 Gestión global del lodo Ecuaciones y cálculos para el tratamiento de aguas 1 2018-01-01 Paraninfo , CapitolsLlib{id=com.sigma.fs3.argos.domain.gpc.GpcCapitolsLlibPK[ifcactivitat=CAP, ifccomptador=13164]},camposKey: 139 152 Aprovechamiento energético de residuos: biogás Retos medioambientales de la industria alimentaria 1 2012-01-01 -][][][][][][com.sigma.fs3.argos.domain.gpc.GpcAltresAjutsBeca[id=com.sigma.fs3.argos.domain.gpc.GpcAltresAjutsBecaPK[ifcactivitat=AAB, ifccomptador=61675]]][com.sigma.fs3.argos.domain.gpc.GpcAltresAjutsBeca[id=com.sigma.fs3.argos.domain.gpc.GpcAltresAjutsBecaPK[ifcactivitat=AAB, ifccomptador=61675]]][][][com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=30360]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=30288]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=2145638741]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=2145637885]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=2145637726]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=2145637735]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=2145637736]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=2145637024]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=2145633884]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=2145630634]], com.sigma.fs3.argos.domain.gpc.GpcTesis[id=com.sigma.fs3.argos.domain.gpc.GpcTesisPK[ifcactivitat=TES, ifccomptador=2145631479]]][][][][][][][][][][com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d48e4, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@38183f, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3a0d98, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3751cd, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d48e2, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d51b0, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4ea1, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373174, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3735fc, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4e9d, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d3eea, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@37349e, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3735d4, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4fa2, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4ed8, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d3ee4, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4e9b, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d48e1, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4ed9, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3736bd, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3732b2, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4ea4, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d48e0, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d48e5, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d48e3, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@37323a, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372f3e, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d48de, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4ea3, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d3ee6, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4e9c, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372f60, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4eda, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372983, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4edb, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4e9f, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373ad6, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4c52, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4f9e, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373c03, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3731d3, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373bac, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372b3c, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373c09, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d4252, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372c46, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372dcf, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373ad9, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@37293b, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373ca6, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@37266c, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3726be, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373e14, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372223, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3d424d, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373e00, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372e3a, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373edb, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372e55, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373ad8, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@371f3d, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@371f53, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@371f52, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@371eba, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372115, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3722ef, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3730ec, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372094, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372a87, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@37311d, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373c9f, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@3722ee, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373146, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@373147, com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ConvenisPPC@372212][][][][][][][][com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@461e56], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@414e9a], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@414e49], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@45f2f4], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@413265], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@45f838], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@41335e], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@412603], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@41255e], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@41364b], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@4125ef], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@413be3], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@4608e6], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@4125d9], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@412827], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@45f48f], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@41242d], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@4122c5], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@412130], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@4122b3], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@4122b4], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@45f490], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@46072e], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@41213e], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@41213c], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@4120d8], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@411e93], com.sigma.investigacion.cawdos.entities.ayudaInvestigacion.ProjectesPPC[id=com.sigma.fs3.argos.domain.gpc.ayudasrecerca.ProjectesPPCId@411c95]][][][com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@153f1, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@1406a, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@139d0, com.sigma.fs3.argos.domain.gpc.altres.ProjecteInnovacio@139cf][]

PUBLICACIONES

Artículos de revista (56)

Ver Todos

Capítulos de libros (4)

Elena Rojo; Alessandro Carmona; Cenit Soto; Israel Díaz; María Fernández-Polanco; Laura Palacio; Raúl Muñoz; Silvia Bolado. Environment and Material Science Technology for Anaerobic Digestion-Based Circular Bioeconomy. En: Ashok Pandey, Rajeshwar Dayal Tyagi, Sunita Varjani. Biomass, Biofuels, Biochemical: Circular Bioeconomy: Current Developments and Future Outlook. Elsevier; 2021. p. 25-55.
Enlace a la publicación
Ver Todos
 

AYUDA A LA INVESTIGACIÓN

Proyectos (28)

LIFE SMART AGROMOBILITY. PROCESSING OF LIVESTOCK WASTE, FOR THE PRODUCTION OF BIOMETHANE FOR USE IN AGRICULTURAL VEHICLES AND BIOFERTILIZERS. GODOS CRESPO, IGNACIO DE (IP); MIGUEL ROMERA, JOSE ANGEL; HERNANDEZ CALLEJO, LUIS; PEÑA MIRANDA, MARIA DEL MAR AGRIPINA; ASENJO MARTIN, MARIA BEGOÑA; GARCIA ALVARO, ALFONSO; FERNANDEZ POLANCO IÑIGUEZ DE LA TORRE, MARIA; MATO CHAIN, RAFAEL BARTOLOME; MUÑOZ TORRE, RAUL; PEREZ ELVIRA, SARA ISABEL; ALONSO GOMEZ, VICTOR. LIFE19 CCM/ES/001206. COMISION EUROPEA, FUNDACION GENERAL DE LA UNIVERSIDAD DE VALLADOLID 2020-2023
Ver Todos

Convenios (75)

ESTUDIO Y DESARROLLO DE TECNOLOGÍAS ANAEROBIAS AVANZADAS MEDIANTE PROCESOS DE MEMBRANA.. PEÑA MIRANDA, MARIA DEL MAR AGRIPINA (IP); FERNANDEZ POLANCO IÑIGUEZ DE LA TORRE, MARIA (IP); PEREZ ELVIRA, SARA ISABEL (IP). FUNDACION GENERAL DE LA UVA, FUNDACION GENERAL DE LA UNIVERSIDAD DE VALLADOLID FUNDACION GENERAL DE LA UVA. 2020
Ver Todos

Otras ayudas y becas (1)

CONTRATO PREDOCTORAL FPU NATALIA ALFARO BORJABAD: "DESARROLLO DE TECNOLOGÍA INNOVADORA DE TRATAMIENTO ANAEROBIO DE RESIDUOS". FERNANDEZ POLANCO IÑIGUEZ DE LA TORRE, MARIA (Director). ALFARO BORJABAD, NATALIA (Beneficiario). 16/09/2014 - 15/09/2018. 72.740,00 EUR.
Ver Todos
 
Cargando información ...
Universidad de Valladolid - Copyright Universidad de Valladolid - Todos los derechos reservados