Abstract View references (15) The aim of the study is to evaluate the possibility of two step harvesting system for giant reed. The biomass was shredded and dried in the field, in second time was baled and storage. First step was cutting and shredding with a specific shredder for biomass crops rear mounted in agricultural tractor and in the second time the Arundo biomass was harvested after more day of drying in the field with continuous monitoring of the biomass moisture content. This harvesting system presents some advantages such as: the possibility of long storage of biomass (moisture content lover 14-15%), baled with a farm mechanization for hay making, possibilities of diversified use of the dried biomass (combustion and II generation ethanol). The test showed technical and energy aspect of the harvest technology but there is necessary one specific machine for shredder while the other are normally presents in the farm. The machine adopted for shredder, designed and developed by Italian constructor for more biomass herbaceous crops (Arundo, Sorghum, Panicum, Mischantus, etc.) is indicated for high vegetative developed crop and can spread the product in all soil surface or windrowing. The tests were conducted in the South of Italy (Campania region) in an experimental farm of Torrelama. The tests have showed a good performance slightly lower than 1.5 ha h-1(1.47) with operative speed of 4.88 km h-1. The hourly production is 58.35 t ha-1with a biomass moisture content of 42.51%. After field drying the biomass are baled and storage. © 2018 ETA-Florence Renewable Energies.

Double-pass harvesting system on giant reed in south Italy / Assirelli, Alberto; Civitarese, Vincenzo; Caracciolo, Giuseppina; Sannino, Maura; Crimaldi, Mariano; Faugno, Salvatore. - 2018:26thEUBCE(2018), pp. 305-308. (Intervento presentato al convegno European Biomass Conference and Exhibition Proceedings, 2018 (26thEUBCE) tenutosi a Copenaghen).

Double-pass harvesting system on giant reed in south Italy

Sannino, Maura;Crimaldi, Mariano;Faugno, Salvatore
2018

Abstract

Abstract View references (15) The aim of the study is to evaluate the possibility of two step harvesting system for giant reed. The biomass was shredded and dried in the field, in second time was baled and storage. First step was cutting and shredding with a specific shredder for biomass crops rear mounted in agricultural tractor and in the second time the Arundo biomass was harvested after more day of drying in the field with continuous monitoring of the biomass moisture content. This harvesting system presents some advantages such as: the possibility of long storage of biomass (moisture content lover 14-15%), baled with a farm mechanization for hay making, possibilities of diversified use of the dried biomass (combustion and II generation ethanol). The test showed technical and energy aspect of the harvest technology but there is necessary one specific machine for shredder while the other are normally presents in the farm. The machine adopted for shredder, designed and developed by Italian constructor for more biomass herbaceous crops (Arundo, Sorghum, Panicum, Mischantus, etc.) is indicated for high vegetative developed crop and can spread the product in all soil surface or windrowing. The tests were conducted in the South of Italy (Campania region) in an experimental farm of Torrelama. The tests have showed a good performance slightly lower than 1.5 ha h-1(1.47) with operative speed of 4.88 km h-1. The hourly production is 58.35 t ha-1with a biomass moisture content of 42.51%. After field drying the biomass are baled and storage. © 2018 ETA-Florence Renewable Energies.
2018
Double-pass harvesting system on giant reed in south Italy / Assirelli, Alberto; Civitarese, Vincenzo; Caracciolo, Giuseppina; Sannino, Maura; Crimaldi, Mariano; Faugno, Salvatore. - 2018:26thEUBCE(2018), pp. 305-308. (Intervento presentato al convegno European Biomass Conference and Exhibition Proceedings, 2018 (26thEUBCE) tenutosi a Copenaghen).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/728935
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