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 | Acesso ao texto completo restrito à biblioteca da Embrapa Milho e Sorgo. Para informações adicionais entre em contato com cnpms.biblioteca@embrapa.br. |
Registro Completo
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Biblioteca(s): |
Embrapa Milho e Sorgo. |
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Data corrente: |
21/01/1997 |
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Data da última atualização: |
05/02/2014 |
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Autoria: |
MANTOVANI, B. H. M. |
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Afiliação: |
EMBRAPA/CNPMS. |
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Título: |
Dynamic analysis of Harvesting and handling systems for biomass energy feedstocks. |
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Ano de publicação: |
1983 |
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Fonte/Imprenta: |
1983. |
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Páginas: |
254p. |
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Idioma: |
Inglês |
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Notas: |
Tese (Doutorado) - Purdue Univessity, West Lafayette. |
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Conteúdo: |
A SLAM II combination network discrete event model was developed to simulate harvest and transpot of corn residue, hay and wood chips for delivery to a central biomass conversion plant, on a year around basis. Ten years of climatological and biomass production data, from 1971-72 to 1980-81, were included in the model, in order to quantify the effect of weather on system performance. The model was used to analyze the system under several combinations and proportions of three feedstocks, plants of two sizes, localized in three regions: Northern, Central and Southern Indiana. Different harvest systems were compared: corn residue and hay big round bales or stacks, and wood chips from clear cut, thinning or plantation operations. Four storage capacities at the plant yard for corn residue and hay were compared and also the effect of number of machines on equipment utilization and costs were studied. The results showed that weather plays an important role on system performance, especially on the collection and transportation of corn residue and hay. In the worst weather year studied, the conversion plant working time was increased 29% by going farther to collect corn residue, increasing the haul radius by 41%, with the same equipment. To supply a conversion plant utilizing 40,000 Mg/year (1 Mg= 1 metric tonne ) of wood chips or less, the forestry equipment should be utilized not only to produce chips for this particular plant, but also to perform other jobs, in order to decrease production costs. Corn residue yields averaged 3.3 Mg/ha and hay yields averaged 1.9 Mg/ha. Wood chips productivity per cutting averaged 86 Mg/ha for clear cut, 53 mg/ha for thinning and 40 Mg/ha for plantations, for 100, 20 and 5 yaers rotation ages respectively. In an average weather year it cost up 71% more to collect and transport corn residue bales than to produce and transport wood chips from clear cut. Stacks and bales cost about the same to produce, but it cost 55% more to transport bales than to transport stacks. Production and transportation costs were about twice as much for a clear cut operation compared to a plantation system. MenosA SLAM II combination network discrete event model was developed to simulate harvest and transpot of corn residue, hay and wood chips for delivery to a central biomass conversion plant, on a year around basis. Ten years of climatological and biomass production data, from 1971-72 to 1980-81, were included in the model, in order to quantify the effect of weather on system performance. The model was used to analyze the system under several combinations and proportions of three feedstocks, plants of two sizes, localized in three regions: Northern, Central and Southern Indiana. Different harvest systems were compared: corn residue and hay big round bales or stacks, and wood chips from clear cut, thinning or plantation operations. Four storage capacities at the plant yard for corn residue and hay were compared and also the effect of number of machines on equipment utilization and costs were studied. The results showed that weather plays an important role on system performance, especially on the collection and transportation of corn residue and hay. In the worst weather year studied, the conversion plant working time was increased 29% by going farther to collect corn residue, increasing the haul radius by 41%, with the same equipment. To supply a conversion plant utilizing 40,000 Mg/year (1 Mg= 1 metric tonne ) of wood chips or less, the forestry equipment should be utilized not only to produce chips for this particular plant, but also to perform other jobs, in order to decrease pr... Mostrar Tudo |
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Palavras-Chave: |
Energy sources; Fonte alternativa; Grain; Graos; Harvest; Production; Sistema; Systems. |
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Thesagro: |
Biomassa; Colheita; Energia; Produção. |
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Thesaurus NAL: |
biomass; energy. |
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Categoria do assunto: |
-- |
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Marc: |
LEADER 02894nam a2200301 a 4500
001 1473411
005 2014-02-05
008 1983 bl uuuu m 00u1 u #d
100 1 $aMANTOVANI, B. H. M.
245 $aDynamic analysis of Harvesting and handling systems for biomass energy feedstocks.
260 $a1983.$c1983
300 $a254p.
500 $aTese (Doutorado) - Purdue Univessity, West Lafayette.
520 $aA SLAM II combination network discrete event model was developed to simulate harvest and transpot of corn residue, hay and wood chips for delivery to a central biomass conversion plant, on a year around basis. Ten years of climatological and biomass production data, from 1971-72 to 1980-81, were included in the model, in order to quantify the effect of weather on system performance. The model was used to analyze the system under several combinations and proportions of three feedstocks, plants of two sizes, localized in three regions: Northern, Central and Southern Indiana. Different harvest systems were compared: corn residue and hay big round bales or stacks, and wood chips from clear cut, thinning or plantation operations. Four storage capacities at the plant yard for corn residue and hay were compared and also the effect of number of machines on equipment utilization and costs were studied. The results showed that weather plays an important role on system performance, especially on the collection and transportation of corn residue and hay. In the worst weather year studied, the conversion plant working time was increased 29% by going farther to collect corn residue, increasing the haul radius by 41%, with the same equipment. To supply a conversion plant utilizing 40,000 Mg/year (1 Mg= 1 metric tonne ) of wood chips or less, the forestry equipment should be utilized not only to produce chips for this particular plant, but also to perform other jobs, in order to decrease production costs. Corn residue yields averaged 3.3 Mg/ha and hay yields averaged 1.9 Mg/ha. Wood chips productivity per cutting averaged 86 Mg/ha for clear cut, 53 mg/ha for thinning and 40 Mg/ha for plantations, for 100, 20 and 5 yaers rotation ages respectively. In an average weather year it cost up 71% more to collect and transport corn residue bales than to produce and transport wood chips from clear cut. Stacks and bales cost about the same to produce, but it cost 55% more to transport bales than to transport stacks. Production and transportation costs were about twice as much for a clear cut operation compared to a plantation system.
650 $abiomass
650 $aenergy
650 $aBiomassa
650 $aColheita
650 $aEnergia
650 $aProdução
653 $aEnergy sources
653 $aFonte alternativa
653 $aGrain
653 $aGraos
653 $aHarvest
653 $aProduction
653 $aSistema
653 $aSystems
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