Idrogeno per il raggiungimento dei target di efficienza e di emissioni
L'idrogeno come fattore essenziale per il raggiungimento dei target di efficienza e di emissioni
Luca Del Zotto - Università degli Studi eCampus Roma
(in lingua inglese)
- Hydrogen International Projects
- BLAZE - Biomass Low cost, Advanced and Zero Emission small-medium scale fuel cell CHP PLANT
- GICO - Gasification Integrated with CO2 capture and conversion
- SO-FREE - Solid oxide fuel cell combined heat and power: Future-ready Energy
- 3EMOTION: Environmentally friendly Efficient Electric Motion
GICO - Gasification Integrated with CO2 capture and conversion
GICO develops new materials (CO2 capture sorbents; high temperature inorganic removal sorbents; catalytic filter candles; membranes for oxygen separation and methanol production) and technologies (Hydro Thermal Carbonisation; Sorption
Enhanced Gasification; Hot Gas Conditioning; Carbon Capture, Storage and Use; Power To Gas via Plasma conversion) to:
- TRL -Technology Readiness Level 1/2 to 3/4
- Produce intermediate liquid (5 vs 15 euro/MWh) and gaseous (10 vs 30 euro/MWh with zero particulate and ppb contaminants level) bioenergy carriers;
- CO2 capture (40 euro/t vs 90 euro/t) receiving waste high alkali content and producing bricks;
- Convert CO2 to CO and O2 (90 vs 10% efficiency) storing renewable electricity excess;
- Produce methanol (35 vs 75 euro/MWh) and electricity (100 vs 200 euro/MWh).
SO-FREE - Solid oxide fuel cell combined heat and power: Future-ready Energy
- In-depth understanding of the effects of variable fuel compositions - considering mixtures of natural gas, biogas and hydrogen - on the operation of SOFC stacks covering the spectrum of operating temperatures (anode-supported stacks operating at 650°C to electrolyte-supported stacks running at 850°C), integrated in a combined heat and power (CHP) system
- Demonstration of two 5-kWe-class systems for 9 months and >6000 operating hours each, proving efficient (>48% electrical), low-degradation (90% availability) operation in flexi-fuel conditions, each integrating both of two radically different SOFC stack technologies, thereby validating a truly flexible SOFC system adhering to 2024 MAWP targets
- Pre-certification of the developed prototype system according to applicable EU and international directives and regulations, removing any hurdles towards fieldtest certification and detailing the pathway to full CE certification and market compliance
Attached, you can download the full pdf of the presentation.
GICO develops new materials (CO2 capture sorbents; high temperature inorganic removal sorbents; catalytic filter candles; membranes for oxygen separation and methanol production) and technologies (Hydro Thermal Carbonisation; Sorption
Enhanced Gasification; Hot Gas Conditioning; Carbon Capture, Storage and Use; Power To Gas via Plasma conversion) to:
- TRL -Technology Readiness Level 1/2 to 3/4
- Produce intermediate liquid (5 vs 15 euro/MWh) and gaseous (10 vs 30 euro/MWh with zero particulate and ppb contaminants level) bioenergy carriers;
- CO2 capture (40 euro/t vs 90 euro/t) receiving waste high alkali content and producing bricks;
- Convert CO2 to CO and O2 (90 vs 10% efficiency) storing renewable electricity excess;
- Produce methanol (35 vs 75 euro/MWh) and electricity (100 vs 200 euro/MWh).
SO-FREE - Solid oxide fuel cell combined heat and power: Future-ready Energy
- In-depth understanding of the effects of variable fuel compositions - considering mixtures of natural gas, biogas and hydrogen - on the operation of SOFC stacks covering the spectrum of operating temperatures (anode-supported stacks operating at 650°C to electrolyte-supported stacks running at 850°C), integrated in a combined heat and power (CHP) system
- Demonstration of two 5-kWe-class systems for 9 months and >6000 operating hours each, proving efficient (>48% electrical), low-degradation (90% availability) operation in flexi-fuel conditions, each integrating both of two radically different SOFC stack technologies, thereby validating a truly flexible SOFC system adhering to 2024 MAWP targets
- Pre-certification of the developed prototype system according to applicable EU and international directives and regulations, removing any hurdles towards fieldtest certification and detailing the pathway to full CE certification and market compliance
Attached, you can download the full pdf of the presentation.
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Fonte: mcTER Roma maggio 2023 Le sfide per l'efficienza energetica tra Energy Efficiency First, generazione distribuita, smart grid e idrogeno
Settori: Ambiente, Analisi, abbattimento e Controllo emissioni, Bioenergia, Biomasse, Cambiamento climatico, Cogenerazione, Combustibili, Efficienza energetica industriale, Elettrotecnica, GAS, Idrogeno, Rete elettrica, Rinnovabili, Smart City, Smart energy, Smart Grid
Parole chiave: Biomasse, Celle a combustibile, Cogenerazione, Efficienza energetica, Idrogeno, Smart grid, Zero emissioni
- Andrea Maffezzoli
- EP Misura e Automazione
- Elisabetta Salata
- Giuseppe Grassi
- Andrea Maffezzoli