Valorisation of urban green areas for producing renewable energy and biochar as growing substrate of Sicilian aromatic and nutraceutical species in a circular economy

Titolo Rivista RIVISTA DI STUDI SULLA SOSTENIBILITA'
Autori/Curatori Antonio Comparetti, Carlo Greco, Michele Massimo Mammano, Navickas Kestutis, Orlando Santo, Venslauskas Kestutis
Anno di pubblicazione 2020 Fascicolo 2019/2 Suppl. Lingua Inglese
Numero pagine 16 P. 299-314 Dimensione file 396 KB
DOI 10.3280/RISS2019-002-S1019
Il DOI è il codice a barre della proprietà intellettuale: per saperne di più clicca qui

Qui sotto puoi vedere in anteprima la prima pagina di questo articolo.

Se questo articolo ti interessa, lo puoi acquistare (e scaricare in formato pdf) seguendo le facili indicazioni per acquistare il download credit. Acquista Download Credits per scaricare questo Articolo in formato PDF

Anteprima articolo

FrancoAngeli è membro della Publishers International Linking Association, Inc (PILA)associazione indipendente e non profit per facilitare (attraverso i servizi tecnologici implementati da CrossRef.org) l’accesso degli studiosi ai contenuti digitali nelle pubblicazioni professionali e scientifiche

This work is aimed at evaluating the possible building up of a gasifier for the energy valorisation of residual biomass deriving from urban areas and their surroundings. The area and the volumes of supply and economic convenience have been determined by implementing a GIS-based geographic method to the localisation and quantification of non-uniform elements of plant biomass. The pyrolysis and gasification processes of the lignocellulosic biomass obtained from pruning and maintenance operations of the urban and ornamental green include the production of a residual amount of biochar. The biochar can be used in agriculture as a soil improver and a substrate alternative to peat in the sustainable production of Sicilian aromatic and nutraceutical species grown in pots within a circular economy.

Keywords:Sustainable development, renewable energy sources, biomass, green areas, aromatic species, nutraceutical species.

  1. APAT (2000). Legenda Corine Land Cover di 3° livello, anno 2000. -- http://www.isprambiente.gov.it/files/legendacorine.pdf (in Italian).
  2. Attard G., Comparetti A., Febo P., Greco C., Mammano M. and Orlando S. (2017). Case study of potential production of Renewable Energy Sources (RES) from livestock wastes in Mediterranean islands. Chemical Engineering Transactions, 58(58): 553-558.
  3. Barbirolo F. (2013). Analisi di fattibilità tecnico-economica di un cogeneratore alimentato da un microgassificatore a biomassa. Tesi. POLIMI (in Italian). Brancucci G., Marin V. and Salmona P. (2016). Dispense per l’uso del software Qgis. Geomorfolab UNIGE (in Italian).
  4. Comparetti A., Febo P., Greco C. and Orlando S. (2011). Prime prove di un prototipo di pirolizzatore per la produzione di biochar. 22-24 September 2011, Atti convegno AIIA, Belgirate (in Italian).
  5. Comparetti A., Greco C., Navickas K. and Venslauskas K. (2012). Evaluation of potential biogas production in Sicily. Proceedings of the 11th International Scientific Conference Engineering for Rural Development, Jelgava, Latvia, 24-25 May 2012: 555-559.
  6. Comparetti A., Febo P., Greco C. and Orlando O. (2013a). Current state and future of biogas and digestate production. Bulgarian Journal of Agricultural Science, 19(1): 1-14.
  7. Comparetti A., Febo P., Greco C., Navickas K., Nekrosius A., Orlando S. and Venslauskas K. (2013b). Sicilian potential biogas production. X Convegno Nazionale di Ingegneria Agraria, Viterbo, 8-12 September. Journal of Agricultural Engineering, XLIV(s2): e103: 522-525.
  8. Comparetti A., Febo P., Greco C., Navickas K., Nekrosius A., Orlando S. and Venslauskas K. (2013c). Biogas yield from Sicilian kitchen waste and cheese whey. X Convegno Nazionale di Ingegneria Agraria, Viterbo, 8-12 September, Journal of Agricultural Engineering, XLIV(s2): e106: 535-538.
  9. Comparetti A., Febo P., Greco C., Navickas K., Nekrosius A., Orlando S. and Venslauskas K. (2014). Assessment of organic waste management methods through energy balance. American Journal of Applied Sciences, 11(9): 1631-1644.
  10. Comparetti A., Febo P., Greco C. and Orlando S. (2015). Italian Potential Biogas and Biomethane Production from OFMSW. IV International Conference Ragusa SHWA on “Safety, Health and Welfare in Agriculture, Agro-food and Forestry Systems”, Lodi, Italy, 8-11 September 2015: 206-215.
  11. Comparetti A., Febo P., Greco C., Mammano M.M. and Orlando S. (2017a). Potential production of biogas from prinkly pear (Opuntia ficus-indica L.) in Sicilian uncultivated areas. Chemical Engineering Transactions, 58: 559-564.
  12. Comparetti A., Febo P., Greco C., Mammano M.M. and Orlando S. (2017b). Sicilian potential biogas production from Citrus industry by-product. Proceedings of 11th International AIIA (Italian Association of Agricultural Engineering), July 5-8, 2016 Bari, Italy: 169-173.
  13. Dispenza V., De Pasquale C., Fascella G., Mammano M.M. and Alonzo G. (2016). Use of biochar as peat substitute for growing substrates of Euphorbia x lomi potted plants. Spanish Journal of Agricultural Research, 14(4): e0908.
  14. Fiorese G. and Paris G. (2008). Stato dell’arte delle tecnologie di trasformazione energetica delle biomasse; costi e benefici ambientali ed economici. LEAP (in Italian).
  15. Orlando S., Greco C., Tuttolomondo T., Leto C., Cammalleri I. and La Bella S. (2017). Identification of Energy Hubs for the Exploitation of Residual Biomass in an Area of Western Sicily. EUBCE 2017 Online Conference Proceedings, Firenze: ETA srl: 64-69.
  16. Pari L., Alfano V., Croce S., Sanzone E. and Suardi A. (2014). I residui di potatura per fini energetici, Valutazione del potenziale per lo sviluppo di una filiera sostenibile. Sherwood. CRA (in Italian).
  17. Regione Sicilia Assessorato dell’Agricoltura, dello Sviluppo Rurale e della Pesca Mediterranea (2017). Allegato al D.D.G. n 2144 del 25/07/2017; PSR Sicilia 2014-2020, Misura 6, Sottomisura 6.4, Operazione 6.4.b; regime de minimis. A cura di Cimò G. -- http://www.psrsicilia.it/Misure/06/Disposizioni%20%20attuative%20.pdf (in Italian).
  18. Rizzato D. (2013). Gassificazione della biomassa: analisi costruttiva di un gassificatore da 45 kWe, studio tecnico-economico dell’installazione. Tesi Magistrale. UNIPD (in Italian).
  19. Roccuzzo G., Caruso P., Russo M.P., Allegra M., Torrisi B., Stagno F., Fascella G. and Ferlito F. (2018). Conifer wood biochar as growing medium for citrus nursery. Acta Hort., 1217: 317-326.

  • Circular economy and agriculture: mapping scientific productivity, research pattern and future research direction Jabir Ali, Tabassum Ali, in Environment, Development and Sustainability /2023
    DOI: 10.1007/s10668-023-03963-x

Antonio Comparetti, Carlo Greco, Michele Massimo Mammano, Navickas Kestutis, Orlando Santo, Venslauskas Kestutis, Valorisation of urban green areas for producing renewable energy and biochar as growing substrate of Sicilian aromatic and nutraceutical species in a circular economy in "RIVISTA DI STUDI SULLA SOSTENIBILITA'" 2 Suppl./2019, pp 299-314, DOI: 10.3280/RISS2019-002-S1019