BONURA, GIUSEPPE
BONURA, GIUSEPPE
Istituto di Tecnologie Avanzate per l'Energia - ITAE
Direct hydrogenation of CO2 into DME: catalytic and technological aspects
2023 G. Bonura
Effectiveness of the 3D-printing procedure in the synthesis of hybrid catalysts for the direct hydrogenation of CO2 into dimethyl ether
2023 Bonura, G; Todaro, S; Middelkoop, V; de Vos, Y; Abbenhuis, Hcl; Gerritsen, G; Koekkoek, Ajj; Cannilla, C; Frusteri, F
Copper and Iron Cooperation on Micro-Spherical Silica during Methanol Synthesis via CO2 Hydrogenation
2022 Todaro S.; Frusteri F.; Wawrzynczak D.; MajchrzakKuceba I.; PerezRobles J.F.; Cannilla C.; Bonura G.
DFT and kinetic evidences of the preferential CO oxidation pattern of manganese dioxide catalysts in hydrogen stream (PROX)
2022 Arena, Francesco; Ferrante, Francesco; Di Chio, Roberto; Bonura, Giuseppe; Frusteri, Francesco; Frusteri, Leone; Prestianni, Antonio; Morandi, Sara; Martra, Gianmario; Duca, Dario
INTENSIFICATION EFFECT ON CATALYTIC CO2 HYDROGENATION TO DME PROMPTED BY WATER-ADSORBENT SYSTEMS
2022 Todaro, Serena; Frusteri, Francesco; Middelkoop, Vesna; De Vos, Yoran; Abbenhuis, Erik; Gerritsen, Gijsbert; Cannilla, Catia; Bonura, Giuseppe
La caratterizzazione "in situ" quale strumento efficace per lo studio del meccanismo di reazione di sistemi catalitici per la conversione della CO2 a combustibili alternativi
2022 Todaro, S; Cannilla, C; Mezzapica, A; Bottari, M; Frusteri, F; Bonura, G
Nanosfere di carbone quali componenti attivi nella produzione di bio-metanolo mediante riduzione di CO2
2022 S. Todaro; C. Cannilla; F. Frusteri; A. Mezzapica; M. Bottari; G. Bonura
RELAZIONE SCIENTIFICA SULL'ANDAMENTO DEL PROGETTO NAUSICA SAL I E II 1-OR2
2022 Bonura, Giuseppe; Frusteri, Francesco; Cannilla, Catia; Mezzapica, Aldo
RELAZIONE TECNICA SULL'ANDAMENTO DEL PROGETTO NAUSICA- Annualità 1-OR2
2022 Arena, Francesco; Bonura, Giuseppe; Cannilla, Catia; Chiodo, Vitaliano; Cipitì, Francesco; DE SIMIO, Luigi; Galvagno, Antonio; Iannaccone, Sabato; LA PAROLA, Valeria; Liotta, LEONARDA FRANCESCA; Maisano, Susanna; Marchitto, Luca; Mezzapica, Aldo; Napolitano, Pierpaolo; Palella, Alessandra; Pantaleo, Giuseppe; Piscopo, Gianluca; Spadaro, Lorenzo; Urbani, Francesco; Violante, Piero
'Conventional' single tube reactor - design and evaluation
2021 Bonura, G; Cannilla, C; Mezzapica, A; Todaro, S; Frusteri, F; Koekkoek, A; Gerritsen, G; Abbenhuis, E; De Vos, Y; Middelkoop, V
Dimethyl ether as circular hydrogen carrier: Catalytic aspects of hydrogenation/dehydrogenation steps
2021 Catizzone E.; Freda C.; Braccio G.; Frusteri F.; Bonura G.
Effect of the microstructure of the semiconductor support on the photocatalytic performance of the pt-ptox/tio2 catalyst system
2021 Majrik, K; Paszti, Z; Korecz, L; Mihaly, J; May, Z; Nemeth, P; Cannilla, C; Bonura, G; Frusteri, F; Tompos, A; Talas, E
Effectiveness of 3D-printed hybrid metal-zeolite monoliths for the direct CO2-to-DME hydrogenation
2021 Todaro, S; Cannilla, C; Mezzapica, A; Middelkoop, V; De Vos, Y; Frusteri, F; Bonura, G
INFLUENCE OF THE COX/H2 FEED ATMOSPHERE ON THE DIRECT SYNTHESIS OF DME IN PRESENCE OF HYBRID SYSTEMS
2021 Serena Todaro; Catia Cannilla; Aldo Mezzapica; Massimo Migliori; Girolamo Giordano;Francesco Frusteri; Giuseppe Bonura
Inside the reaction mechanism of direct CO2 conversion to DME over zeolite-based hybrid catalysts
2021 Bonura G.; Todaro S.; Frusteri L.; MajchrzakKucba I.; Wawrzyczak D.; Pászti Z.; Tálas E.; Tompos A.; Ferenc L.; Solt H.; Cannilla C.; Frusteri F.
Inside the reaction mechanism of direct CO2 conversion to DME over zeolite-based hybrid catalysts
2021 Bonura, G; Todaro, S; Frusteri, L; Majchrzakkuceba, I; Wawrzynczak, D; Paszti, Z; Talas, E; Tompos, A; Ferenc, L; Solt, H; Cannilla, C; Frusteri, F
PRODUCTION OF OXYFUEL ADDITIVES BY GLYCEROL ETHERIFICATION OVER BEA-ZEOLITE CATALYSTS
2021 Catia Cannilla; Serena Todaro; Massimo Migliori; Girolamo Giordano; Francesco frusteri; Giuseppe Bonura
Role of zeolites in the direct CO2 hydrogenation to DME
2021 Bonura, Giuseppe; Todaro, S; Cannilla, C; Migliori, M; Giordano, G; Frusteri, F
Techno-economic feasibility of industrial production of biofuels by glycerol etherification reaction with isobutene or tert-butyl alcohol assisted by vapor-permeation membrane
2021 Cannilla C.; Giacoppo G.; Frusteri L.; Todaro S.; Bonura G.; Frusteri F.
Analysis of citrus peels-based polygeneration plant for hydrogen, heat, power and DME production: Energy and exergy analysis
2020 Prestipino M.; Chiodo V.; Bonura G.; Maisano S.; Brusca S.; Galvagno A.
| Titolo | Data di pubblicazione | Autore(i) | File |
|---|---|---|---|
| Direct hydrogenation of CO2 into DME: catalytic and technological aspects | 1-gen-2023 | G. Bonura | |
| Effectiveness of the 3D-printing procedure in the synthesis of hybrid catalysts for the direct hydrogenation of CO2 into dimethyl ether | 1-gen-2023 | Bonura, G; Todaro, S; Middelkoop, V; de Vos, Y; Abbenhuis, Hcl; Gerritsen, G; Koekkoek, Ajj; Cannilla, C; Frusteri, F | |
| Copper and Iron Cooperation on Micro-Spherical Silica during Methanol Synthesis via CO2 Hydrogenation | 1-gen-2022 | Todaro S.; Frusteri F.; Wawrzynczak D.; MajchrzakKuceba I.; PerezRobles J.F.; Cannilla C.; Bonura G. | |
| DFT and kinetic evidences of the preferential CO oxidation pattern of manganese dioxide catalysts in hydrogen stream (PROX) | 1-gen-2022 | Arena, Francesco; Ferrante, Francesco; Di Chio, Roberto; Bonura, Giuseppe; Frusteri, Francesco; Frusteri, Leone; Prestianni, Antonio; Morandi, Sara; Martra, Gianmario; Duca, Dario | |
| INTENSIFICATION EFFECT ON CATALYTIC CO2 HYDROGENATION TO DME PROMPTED BY WATER-ADSORBENT SYSTEMS | 1-gen-2022 | Todaro, Serena; Frusteri, Francesco; Middelkoop, Vesna; De Vos, Yoran; Abbenhuis, Erik; Gerritsen, Gijsbert; Cannilla, Catia; Bonura, Giuseppe | |
| La caratterizzazione "in situ" quale strumento efficace per lo studio del meccanismo di reazione di sistemi catalitici per la conversione della CO2 a combustibili alternativi | 1-gen-2022 | Todaro, S; Cannilla, C; Mezzapica, A; Bottari, M; Frusteri, F; Bonura, G | |
| Nanosfere di carbone quali componenti attivi nella produzione di bio-metanolo mediante riduzione di CO2 | 1-gen-2022 | S. Todaro; C. Cannilla; F. Frusteri; A. Mezzapica; M. Bottari; G. Bonura | |
| RELAZIONE SCIENTIFICA SULL'ANDAMENTO DEL PROGETTO NAUSICA SAL I E II 1-OR2 | 1-gen-2022 | Bonura, Giuseppe; Frusteri, Francesco; Cannilla, Catia; Mezzapica, Aldo | |
| RELAZIONE TECNICA SULL'ANDAMENTO DEL PROGETTO NAUSICA- Annualità 1-OR2 | 1-gen-2022 | Arena, Francesco; Bonura, Giuseppe; Cannilla, Catia; Chiodo, Vitaliano; Cipitì, Francesco; DE SIMIO, Luigi; Galvagno, Antonio; Iannaccone, Sabato; LA PAROLA, Valeria; Liotta, LEONARDA FRANCESCA; Maisano, Susanna; Marchitto, Luca; Mezzapica, Aldo; Napolitano, Pierpaolo; Palella, Alessandra; Pantaleo, Giuseppe; Piscopo, Gianluca; Spadaro, Lorenzo; Urbani, Francesco; Violante, Piero | |
| 'Conventional' single tube reactor - design and evaluation | 1-gen-2021 | Bonura, G; Cannilla, C; Mezzapica, A; Todaro, S; Frusteri, F; Koekkoek, A; Gerritsen, G; Abbenhuis, E; De Vos, Y; Middelkoop, V | |
| Dimethyl ether as circular hydrogen carrier: Catalytic aspects of hydrogenation/dehydrogenation steps | 1-gen-2021 | Catizzone E.; Freda C.; Braccio G.; Frusteri F.; Bonura G. | |
| Effect of the microstructure of the semiconductor support on the photocatalytic performance of the pt-ptox/tio2 catalyst system | 1-gen-2021 | Majrik, K; Paszti, Z; Korecz, L; Mihaly, J; May, Z; Nemeth, P; Cannilla, C; Bonura, G; Frusteri, F; Tompos, A; Talas, E | |
| Effectiveness of 3D-printed hybrid metal-zeolite monoliths for the direct CO2-to-DME hydrogenation | 1-gen-2021 | Todaro, S; Cannilla, C; Mezzapica, A; Middelkoop, V; De Vos, Y; Frusteri, F; Bonura, G | |
| INFLUENCE OF THE COX/H2 FEED ATMOSPHERE ON THE DIRECT SYNTHESIS OF DME IN PRESENCE OF HYBRID SYSTEMS | 1-gen-2021 | Serena Todaro; Catia Cannilla; Aldo Mezzapica; Massimo Migliori; Girolamo Giordano;Francesco Frusteri; Giuseppe Bonura | |
| Inside the reaction mechanism of direct CO2 conversion to DME over zeolite-based hybrid catalysts | 1-gen-2021 | Bonura G.; Todaro S.; Frusteri L.; MajchrzakKucba I.; Wawrzyczak D.; Pászti Z.; Tálas E.; Tompos A.; Ferenc L.; Solt H.; Cannilla C.; Frusteri F. | |
| Inside the reaction mechanism of direct CO2 conversion to DME over zeolite-based hybrid catalysts | 1-gen-2021 | Bonura, G; Todaro, S; Frusteri, L; Majchrzakkuceba, I; Wawrzynczak, D; Paszti, Z; Talas, E; Tompos, A; Ferenc, L; Solt, H; Cannilla, C; Frusteri, F | |
| PRODUCTION OF OXYFUEL ADDITIVES BY GLYCEROL ETHERIFICATION OVER BEA-ZEOLITE CATALYSTS | 1-gen-2021 | Catia Cannilla; Serena Todaro; Massimo Migliori; Girolamo Giordano; Francesco frusteri; Giuseppe Bonura | |
| Role of zeolites in the direct CO2 hydrogenation to DME | 1-gen-2021 | Bonura, Giuseppe; Todaro, S; Cannilla, C; Migliori, M; Giordano, G; Frusteri, F | |
| Techno-economic feasibility of industrial production of biofuels by glycerol etherification reaction with isobutene or tert-butyl alcohol assisted by vapor-permeation membrane | 1-gen-2021 | Cannilla C.; Giacoppo G.; Frusteri L.; Todaro S.; Bonura G.; Frusteri F. | |
| Analysis of citrus peels-based polygeneration plant for hydrogen, heat, power and DME production: Energy and exergy analysis | 1-gen-2020 | Prestipino M.; Chiodo V.; Bonura G.; Maisano S.; Brusca S.; Galvagno A. |