Development of a feasibility study relative to sewage sludge and biomass-supplied gasification plants with potential equal or inferior to 1 MW, by defying optimal sludge-biomass mixture inlet flow. The aim is to define: 1. the advantage of operating with multi-component loads composed by different mixtures; 2. the best percentage of sewage sludge and biomass for maximizing economic return. Analysis involves two plant variables: • Dryer type: assessment of differences based on thermal energy requirements for solid-liquid separation during drying stage. • Cogeneration unit type: two possible applications are examined: ORC (Organic Rankine Cycle) and EFTG (External Fired Turbo Gas).
Caprara C., Colla L., Lorenzini G., Santarelli C., Stoppiello G., Zanella D (2011). Develomment of a model for tecnical-economical feasability analysis of biomass and sewage sludge gasification plants. INTERNATIONAL JOURNAL OF ENERGY & TECHNOLOGY, 3, 1-6.
Develomment of a model for tecnical-economical feasability analysis of biomass and sewage sludge gasification plants.
CAPRARA, CLAUDIO;STOPPIELLO, GIOVANNI;
2011
Abstract
Development of a feasibility study relative to sewage sludge and biomass-supplied gasification plants with potential equal or inferior to 1 MW, by defying optimal sludge-biomass mixture inlet flow. The aim is to define: 1. the advantage of operating with multi-component loads composed by different mixtures; 2. the best percentage of sewage sludge and biomass for maximizing economic return. Analysis involves two plant variables: • Dryer type: assessment of differences based on thermal energy requirements for solid-liquid separation during drying stage. • Cogeneration unit type: two possible applications are examined: ORC (Organic Rankine Cycle) and EFTG (External Fired Turbo Gas).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
