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Registro Completo |
Biblioteca(s): |
Embrapa Meio Ambiente; Embrapa Milho e Sorgo. |
Data corrente: |
21/12/2022 |
Data da última atualização: |
19/12/2023 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Autoria: |
VIANA, R. da S.; MAY, A.; MOREIRA, B. R. de A.; CRUZ, V. H.; VIEIRA JUNIOR, N. A.; SILVA, E. H. F. M. da; SIMEONE, M. L. F. |
Afiliação: |
RONALDO DA SILVA VIANA, Universidade Estadual Paulista; ANDRE MAY, CNPMA; BRUNO RAFAEL DE ALMEIDA MOREIRA, Universidade Estadual Paulista; VICTOR HUGO CRUZ, Universidade Estadual Paulista; NILSON APARECIDO VIEIRA JUNIOR, Kansas State University; EVANDRO HENRIQUE FIGUEIREDO MOURA DA SILVA, Escola Superior de Agricultura Luiz de Queiroz; MARIA LUCIA FERREIRA SIMEONE, CNPMS. |
Título: |
Addition of glycerol to agroindustrial residues of bioethanol for fuel-flexible agropellets: fundamental fuel properties, combustion, and potential slagging and fouling from residual ash. |
Ano de publicação: |
2023 |
Fonte/Imprenta: |
Industrial Crops and Products, v. 192, 116134, 2023. |
ISSN: |
0926-6690 |
DOI: |
https://doi.org/10.1016/j.indcrop.2022.116134 |
Idioma: |
Inglês |
Conteúdo: |
Glycerol is a by-product of biodiesel. It offers a suitable additive in fabricating fuel-grade solids. However, studies on biomass-glycerol frameworks for energy generation are still emerging topics, driving the need to conduct further experiments and trials to develop alternatives (e.g., non-wood pellets and co-pelleting lines) and understand relationships between raw materials, products, and processes. We, therefore, analyzed whether adding glycerol to agroindustrial residues of bioethanol, namely sugarcane bagasse (first-generation) and lignocellulosic cake (second-generation), could develop suitable agropellets for heating and power. We combined sugarcane bagasse and lignocellulosic cake at 100/0, 75/25, 50/50, 25/75, and 0/100 (wt%, dry basis) for single and hybrid solid biofuels. We mixed them with glycerol at 0, 1, 2, and 3 wt% for a controllable addition and then pelletized them on an automatic press at 200 MPa and 150 °C. We assessed the models for glycerol-containing agropellet for standard fuel properties, such as water, volatile matter, fixed carbon, bulk density, and calorific value. In addition, we conducted thermogravimetry and energy-dispersive x-ray spectroscopy to provide further information about their thermal stability and decomposition, external morphology, and propensity to slagging and fouling. We obtained evidence for sugarcane bagasse and lignocellulosic cake developing high-quality pellets. Their products could be as dense (1161.5?1277.3 kg m?3) and energetic (20.30?21.75 MJ kg?1) as premium-grade wood biofuels; hence, they can offer stakeholders excellent solutions to address high-throughput pelleting lines and generate heat and power in the strictest residential and commercial combustion systems. Blending these materials at 25/75 (wt%, dry basis) could develop a lower degree of compactness of 1135.55 kg m?3. However, introducing glycerol up to 2%wt to such a mixture could increase it to 1162 kg m?3 while maintaining its calorific feature. As a result, it enhanced energy density from 24.1 to 27 GJ m?3. At 3 wt%, however, such an additive can limit technical performance because of its lubricating feature. In addition, it can increase the degree of roughness on the surface, making it easier for samples to reabsorb isothermally available water from the surroundings, implicating low-grade fuels. Furthermore, it can reduce heat transport while increasing physical deposits (i.e., foul and slag) during combustion, as it contained 2.9% inorganic salts. However, its impurities cannot be a limiting factor to the utilization of agropellets in boilers since they only generated 1.3% residue. Therefore, we advanced the field's prominence in adding glycerol to non-woody materials for pelletization and co-densification as a relatively new topic. Stakeholders may benefit from our products to address high-throughput energy-producing systems while valorizing waste. MenosGlycerol is a by-product of biodiesel. It offers a suitable additive in fabricating fuel-grade solids. However, studies on biomass-glycerol frameworks for energy generation are still emerging topics, driving the need to conduct further experiments and trials to develop alternatives (e.g., non-wood pellets and co-pelleting lines) and understand relationships between raw materials, products, and processes. We, therefore, analyzed whether adding glycerol to agroindustrial residues of bioethanol, namely sugarcane bagasse (first-generation) and lignocellulosic cake (second-generation), could develop suitable agropellets for heating and power. We combined sugarcane bagasse and lignocellulosic cake at 100/0, 75/25, 50/50, 25/75, and 0/100 (wt%, dry basis) for single and hybrid solid biofuels. We mixed them with glycerol at 0, 1, 2, and 3 wt% for a controllable addition and then pelletized them on an automatic press at 200 MPa and 150 °C. We assessed the models for glycerol-containing agropellet for standard fuel properties, such as water, volatile matter, fixed carbon, bulk density, and calorific value. In addition, we conducted thermogravimetry and energy-dispersive x-ray spectroscopy to provide further information about their thermal stability and decomposition, external morphology, and propensity to slagging and fouling. We obtained evidence for sugarcane bagasse and lignocellulosic cake developing high-quality pellets. Their products could be as dense (1161.5?1277.3 kg m?3) and... Mostrar Tudo |
Palavras-Chave: |
Bioetanol; Glicerol; Resíduo agroindustrial. |
Thesagro: |
Bagaço; Biocombustível; Cana de Açúcar; Resíduo. |
Thesaurus Nal: |
Biofuels; Sugarcane bagasse. |
Categoria do assunto: |
P Recursos Naturais, Ciências Ambientais e da Terra |
Marc: |
LEADER 03969naa a2200325 a 4500 001 2150219 005 2023-12-19 008 2023 bl uuuu u00u1 u #d 022 $a0926-6690 024 7 $ahttps://doi.org/10.1016/j.indcrop.2022.116134$2DOI 100 1 $aVIANA, R. da S. 245 $aAddition of glycerol to agroindustrial residues of bioethanol for fuel-flexible agropellets$bfundamental fuel properties, combustion, and potential slagging and fouling from residual ash.$h[electronic resource] 260 $c2023 520 $aGlycerol is a by-product of biodiesel. It offers a suitable additive in fabricating fuel-grade solids. However, studies on biomass-glycerol frameworks for energy generation are still emerging topics, driving the need to conduct further experiments and trials to develop alternatives (e.g., non-wood pellets and co-pelleting lines) and understand relationships between raw materials, products, and processes. We, therefore, analyzed whether adding glycerol to agroindustrial residues of bioethanol, namely sugarcane bagasse (first-generation) and lignocellulosic cake (second-generation), could develop suitable agropellets for heating and power. We combined sugarcane bagasse and lignocellulosic cake at 100/0, 75/25, 50/50, 25/75, and 0/100 (wt%, dry basis) for single and hybrid solid biofuels. We mixed them with glycerol at 0, 1, 2, and 3 wt% for a controllable addition and then pelletized them on an automatic press at 200 MPa and 150 °C. We assessed the models for glycerol-containing agropellet for standard fuel properties, such as water, volatile matter, fixed carbon, bulk density, and calorific value. In addition, we conducted thermogravimetry and energy-dispersive x-ray spectroscopy to provide further information about their thermal stability and decomposition, external morphology, and propensity to slagging and fouling. We obtained evidence for sugarcane bagasse and lignocellulosic cake developing high-quality pellets. Their products could be as dense (1161.5?1277.3 kg m?3) and energetic (20.30?21.75 MJ kg?1) as premium-grade wood biofuels; hence, they can offer stakeholders excellent solutions to address high-throughput pelleting lines and generate heat and power in the strictest residential and commercial combustion systems. Blending these materials at 25/75 (wt%, dry basis) could develop a lower degree of compactness of 1135.55 kg m?3. However, introducing glycerol up to 2%wt to such a mixture could increase it to 1162 kg m?3 while maintaining its calorific feature. As a result, it enhanced energy density from 24.1 to 27 GJ m?3. At 3 wt%, however, such an additive can limit technical performance because of its lubricating feature. In addition, it can increase the degree of roughness on the surface, making it easier for samples to reabsorb isothermally available water from the surroundings, implicating low-grade fuels. Furthermore, it can reduce heat transport while increasing physical deposits (i.e., foul and slag) during combustion, as it contained 2.9% inorganic salts. However, its impurities cannot be a limiting factor to the utilization of agropellets in boilers since they only generated 1.3% residue. Therefore, we advanced the field's prominence in adding glycerol to non-woody materials for pelletization and co-densification as a relatively new topic. Stakeholders may benefit from our products to address high-throughput energy-producing systems while valorizing waste. 650 $aBiofuels 650 $aSugarcane bagasse 650 $aBagaço 650 $aBiocombustível 650 $aCana de Açúcar 650 $aResíduo 653 $aBioetanol 653 $aGlicerol 653 $aResíduo agroindustrial 700 1 $aMAY, A. 700 1 $aMOREIRA, B. R. de A. 700 1 $aCRUZ, V. H. 700 1 $aVIEIRA JUNIOR, N. A. 700 1 $aSILVA, E. H. F. M. da 700 1 $aSIMEONE, M. L. F. 773 $tIndustrial Crops and Products$gv. 192, 116134, 2023.
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Embrapa Meio Ambiente (CNPMA) |
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Biblioteca(s): |
Embrapa Soja. |
Data corrente: |
27/08/2020 |
Data da última atualização: |
03/09/2020 |
Tipo da produção científica: |
Circular Técnica |
Autoria: |
GODOY, C. V.; UTIAMADA, C. M.; MEYER, M. C.; CAMPOS, H. D.; LOPES, I. de O. N.; DIAS, A. R.; MUHL, A.; PIMENTA, C. B.; NAKASHIMA, C.; MORESCO, E.; SIQUERI, F. V.; JULIATTI, F. C.; JULIATTI, F. C.; FEKSA, H. R.; JUNIOR, I. P. A.; BONANI, J. C.; ROY, J. M. T.; GRIGOLLI, J. F. J.; NUNES JUNIOR, J.; ARRUDA, J. H.; BELUFI, L. M. de R.; NAVARINI, L.; MOREIRA, L. S. de O.; SILVA, L. H. C. P. da; SATO, L. N.; SENGER, M.; DIAS, M. D.; MÜLLER, M. A.; MARTINS, M. C.; DEBORTOLI, M. P.; TORMEN, N. D.; BALARDIN, R. S.; MADALOSSO, T.; CARLIN, V. J. |
Afiliação: |
CLAUDIA VIEIRA GODOY, CNPSO; ENGENHEIRO-AGRÔNOMO, TAGRO TECNOLOGIA AGROPECUÁRIA LTDA., LONDRINA, PR; MAURICIO CONRADO MEYER, CNPSO; ENGENHEIRO-AGRÔNOMO, DOUTOR, UNIVERSIDADE DE RIO VERDE, RIO VERDE, GO; IVANI DE OLIVEIRA NEGRAO LOPES, CNPSO; ENGENHEIRO-AGRÔNOMO, MESTRE, FUNDAÇÃO CHAPADÃO, CHAPADÃO DO SUL, MS; ENGENHEIRA-AGRÔNOMA, CENTRO DE PESQUISA AGRÍCOLA COPACOL, CAFELÂNDIA, PR; ENGENHEIRA-AGRÔNOMA, MESTRE, EMATER-GO, GOIÂNIA, GO; ENGENHEIRO-AGRÔNOMO, INTEGRADA, ASSAÍ, PR; TÉCNICO EM AGROPECUÁRIA, 3M EXPERIMENTAÇÃO AGRÍCOLA, PONTA GROSSA, PR; ENGENHEIRO-AGRÔNOMO, FUNDAÇÃO MATO GROSSO, RONDONÓPOLIS, MT; ENGENHEIRA-AGRÔNOMA, MESTRE, JULIAGRO, UBERLÂNDIA, MG; ENGENHEIRO-AGRÔNOMO, DOUTOR, UNIVERSIDADE FEDERAL DE UBERLÂNDIA, UBERLÂNDIA, MG; ENGENHEIRO-AGRÔNOMO, MESTRE, FUNDAÇÃO AGRÁRIA DE PESQUISA AGROPECUÁRIA, GUARAPUAVA, PR; ENGENHEIRO-AGRÔNOMO, FUNDAÇÃO MATO GROSSO, RONDONÓPOLIS, MT; ENGENHEIRO-AGRÔNOMO, COAMO, CAMPO MOURÃO, PR; ENGENHEIRO-AGRÔNOMO, CENTRO DE PESQUISA AGRÍCOLA COPACOL, CAFELÂNDIA, PR; ENGENHEIRO-AGRÔNOMO, DOUTOR, FUNDAÇÃO MS PARA PESQUISA E DIFUSÃO DE TECNOLOGIAS AGROPECUÁRIAS, MARACAJU, MS; ENGENHEIRO-AGRÔNOMO, DOUTOR, CENTRO TECNOLÓGICO PARA PESQUISAS AGROPECUÁRIAS - CTPA, GOIÂNIA, GO; ENGENHEIRA-AGRÔNOMA, DOUTORA, FUNDAÇÃO MATO GROSSO, RONDONÓPOLIS, MT; ENGENHEIRA-AGRÔNOMA, MESTRE, FUNDAÇÃO DE PESQUISA E DESENVOLVIMENTO TECNOLÓGICO RIO VERDE, LUCAS DO RIO VERDE, MT; ENGENHEIRO-AGRÔNOMO, DOUTOR, PESQUISADOR DA PLANTA CONHECIMENTO/HA, PASSO FUNDO, RS; ENGENHEIRO-AGRÔNOMO, COAMO AGROINDUSTRIAL COOPERATIVA, CAMPO MOURÃO, PR; ENGENHEIRO-AGRÔNOMO, MESTRE, AGRO CARREGAL PESQUISA E PROTEÇÃO DE PLANTAS EIRELI, RIO VERDE, GO; ENGENHEIRO-AGRÔNOMO, TAGRO, LONDRINA, PR; ENGENHEIRA-AGRÔNOMA, DOUTORA, 3M EXPERIMENTAÇÃO AGRÍCOLA, PONTA GROSSA, PR; ENGENHEIRA-AGRÔNOMA, DOUTORA, UNIVERSIDADE FEDERAL DO TOCANTINS, GURUPI, TO; ENGENHEIRA-AGRÔNOMA, DOUTORA, FUNDAÇÃO MATO GROSSO, RONDONÓPOLIS, MT; ENGENHEIRA-AGRÔNOMA, DOUTORA, CÍRCULO VERDE ASSESSORIA AGRONÔMICA E PESQUISA, LUÍS EDUARDO MAGALHÃES, BA; ENGENHEIRA-AGRÔNOMA, DOUTORA, INSTITUTO PHYTUS, SANTA MARIA, RS; ENGENHEIRO-AGRÔNOMO, DOUTOR, INSTITUTO PHYTUS, PLANALTINA, DF; ENGENHEIRO-AGRÔNOMO, PH.D., UNIVERSIDADE FEDERAL DE SANTA MARIA, SANTA MARIA, RS; ENGENHEIRO-AGRÔNOMO, MESTRE, CENTRO DE PESQUISA AGRÍCOLA COPACOL, CAFELÂNDIA, PR; ENGENHEIRO-AGRÔNOMO, AGRODINÂMICA, TANGARÁ DA SERRA, MT. |
Título: |
Experimentos cooperativos de aplicações de fungicidas aos 30 dias após a emergência da cultura da soja: safras 2016/2017, 21018/2019 e 2019/2020. |
Ano de publicação: |
2020 |
Fonte/Imprenta: |
Londrina: Embrapa Soja, 2020. |
Páginas: |
11 p. |
Série: |
(Embrapa Soja. Circular técnica, 162). |
Idioma: |
Português |
Thesagro: |
Fungicida; Soja. |
Thesaurus NAL: |
Fungicides; Soybeans. |
Categoria do assunto: |
X Pesquisa, Tecnologia e Engenharia |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/215765/1/CT-162.pdf
|
Marc: |
LEADER 01585nam a2200565 a 4500 001 2124580 005 2020-09-03 008 2020 bl uuuu u0uu1 u #d 100 1 $aGODOY, C. V. 245 $aExperimentos cooperativos de aplicações de fungicidas aos 30 dias após a emergência da cultura da soja$bsafras 2016/2017, 21018/2019 e 2019/2020.$h[electronic resource] 260 $aLondrina: Embrapa Soja$c2020 300 $a11 p. 490 $a(Embrapa Soja. Circular técnica, 162). 650 $aFungicides 650 $aSoybeans 650 $aFungicida 650 $aSoja 700 1 $aUTIAMADA, C. M. 700 1 $aMEYER, M. C. 700 1 $aCAMPOS, H. D. 700 1 $aLOPES, I. de O. N. 700 1 $aDIAS, A. R. 700 1 $aMUHL, A. 700 1 $aPIMENTA, C. B. 700 1 $aNAKASHIMA, C. 700 1 $aMORESCO, E. 700 1 $aSIQUERI, F. V. 700 1 $aJULIATTI, F. C. 700 1 $aJULIATTI, F. C. 700 1 $aFEKSA, H. R. 700 1 $aJUNIOR, I. P. A. 700 1 $aBONANI, J. C. 700 1 $aROY, J. M. T. 700 1 $aGRIGOLLI, J. F. J. 700 1 $aNUNES JUNIOR, J. 700 1 $aARRUDA, J. H. 700 1 $aBELUFI, L. M. de R. 700 1 $aNAVARINI, L. 700 1 $aMOREIRA, L. S. de O. 700 1 $aSILVA, L. H. C. P. da 700 1 $aSATO, L. N. 700 1 $aSENGER, M. 700 1 $aDIAS, M. D. 700 1 $aMÜLLER, M. A. 700 1 $aMARTINS, M. C. 700 1 $aDEBORTOLI, M. P. 700 1 $aTORMEN, N. D. 700 1 $aBALARDIN, R. S. 700 1 $aMADALOSSO, T. 700 1 $aCARLIN, V. J.
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