This paper describes the RiVite project granted by the Italian Ministry of Economic Development according to the JUMP (Joint Universities Program for PoC) program for patents enhancement, proposed by Sant’Anna School, Scuola Normale and the University of Palermo. The patent (Calvo, R., D’Asaro, F., Baiamonte, G.: Metodo per la realizzazione di un’opera costruttiva modulare per la protezione del territorio e detta opera. Attestato di Brevetto per Invenzione Industriale, n° 102,017,000,141,369, Ministero dello Sviluppo Economico, Roma, 27/02/2020.) consists of an advanced soil bioengineering work providing anti-erosion function, consolidating and stabilizing of slopes, thus for land protection. The technique is based on modular elements construction (Roll Modular Fascine, RFM, 40 cm × 60 cm) made with the residues of vine pruning collected with specialized agricultural machines. The RFMs are filled with a pre-seeded cultivation substrate, consisting of a mixture of beached Posidonia oceanica (L.) Delile, seeds of autochthonous species and coolant fluids. The wooden part of the work resists only for the time to rooting and development of the native species, after which the resistant action will be exerted by the root systems. The final work was realized connecting longitudinally the RFMs with cables or wire meshes. Differently from the common works, thanks to the assembling system, the proposed patented work is less time consuming, and reduces CO2 emissions because of reusing waste materials. The project was based on different prototypes, and the JUMP program made it possible to implement four prototypes in two areas near Etna volcano (Nicolosi, Giarre).

Giorgio Baiamonte, Roberta Calvo, Gianluigi Pirrera, Samuel Palermo, Francesco D’Asaro (2023). An Innovative Soil Bioengineering Technique by Waste Materials: The RiVite Project. In V. Ferro, G. Giordano, S. Orlando, M. Vallone, G. Cascone, S. Porto (a cura di), AIIA 2022: Biosystems Engineering Towards the Green Deal: Improving the Resilience of Agriculture, Forestry and Food Systems in the Post-Covid Era (pp. 27-39). Springer [10.1007/978-3-031-30329-6].

An Innovative Soil Bioengineering Technique by Waste Materials: The RiVite Project

Giorgio Baiamonte
;
Roberta Calvo;Samuel Palermo;Francesco D’Asaro
2023-07-01

Abstract

This paper describes the RiVite project granted by the Italian Ministry of Economic Development according to the JUMP (Joint Universities Program for PoC) program for patents enhancement, proposed by Sant’Anna School, Scuola Normale and the University of Palermo. The patent (Calvo, R., D’Asaro, F., Baiamonte, G.: Metodo per la realizzazione di un’opera costruttiva modulare per la protezione del territorio e detta opera. Attestato di Brevetto per Invenzione Industriale, n° 102,017,000,141,369, Ministero dello Sviluppo Economico, Roma, 27/02/2020.) consists of an advanced soil bioengineering work providing anti-erosion function, consolidating and stabilizing of slopes, thus for land protection. The technique is based on modular elements construction (Roll Modular Fascine, RFM, 40 cm × 60 cm) made with the residues of vine pruning collected with specialized agricultural machines. The RFMs are filled with a pre-seeded cultivation substrate, consisting of a mixture of beached Posidonia oceanica (L.) Delile, seeds of autochthonous species and coolant fluids. The wooden part of the work resists only for the time to rooting and development of the native species, after which the resistant action will be exerted by the root systems. The final work was realized connecting longitudinally the RFMs with cables or wire meshes. Differently from the common works, thanks to the assembling system, the proposed patented work is less time consuming, and reduces CO2 emissions because of reusing waste materials. The project was based on different prototypes, and the JUMP program made it possible to implement four prototypes in two areas near Etna volcano (Nicolosi, Giarre).
1-lug-2023
Giorgio Baiamonte, Roberta Calvo, Gianluigi Pirrera, Samuel Palermo, Francesco D’Asaro (2023). An Innovative Soil Bioengineering Technique by Waste Materials: The RiVite Project. In V. Ferro, G. Giordano, S. Orlando, M. Vallone, G. Cascone, S. Porto (a cura di), AIIA 2022: Biosystems Engineering Towards the Green Deal: Improving the Resilience of Agriculture, Forestry and Food Systems in the Post-Covid Era (pp. 27-39). Springer [10.1007/978-3-031-30329-6].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/598993
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