Equilíbrio químico nas reações de obtenção do biodiesel
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2018 |
| Tipo de documento: | Trabalho de conclusão de curso |
| Idioma: | por |
| Título da fonte: | Repositório Institucional da UFU |
| Texto Completo: | https://repositorio.ufu.br/handle/123456789/33157 |
Resumo: | Biodiesel has been shown in recent decades as a great substitute for fossil fuels, being a less harmful gases emitter to Earth's atmosphere and a least contributor to global warming. For the development of its applications, a growing number of studies are being conducted by the global scientific community in various areas, such as on the composition and quality of the biofuel, its environmental, social and economic impacts. In the area of chemical engineering, the main focus of study is in the methods of production of biodiesel. The supercritical route, on which the triglyceride transesterification reactions from vegetable oils takes place in operating conditions exceed the critical properties of the lower alcohols, shows up as an alternative to subcritical route because of the absence of glycerin and water as by-products of transesterifications, as well as high yields despite the difficulty caused by the need for operation in extreme conditions of temperature and pressure. For the calculation of equilibrium constants and conversions of the transesterification reactions, it is necessary to know thermodynamic properties of the compounds involved, but such data are scarce in the literature due to the complexity of the reagents and reactional mixtures. Therefore, estimation methods are required for determination of such properties. The two approaches presented in this work used group contribution methods for the prediction of critical parameters (temperature and pressure), normal boiling temperatures, heat capacities, enthalpies and entropies, and acentric factors. The study of chemical equilibrium id held by the determination of equilibrium constants as a function of temperature, composition of the reaction mixture, non-ideality by fugacity coefficients and pressure effects and excess methanol for the calculation of equilibrium conversions point optimum conditions for operating temperatures of 600 to 650 K and pressures above 110 bar. |
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Equilíbrio químico nas reações de obtenção do biodieselChemical balance in the reactions to obtain biodieselBiodieselÓleos vegetaisTransesterificaçãoEquilíbrio químicoRota supercríticaVegetable oilsChemical equilibriumSupercritic routeCNPQ::ENGENHARIAS::ENGENHARIA QUIMICABiodiesel has been shown in recent decades as a great substitute for fossil fuels, being a less harmful gases emitter to Earth's atmosphere and a least contributor to global warming. For the development of its applications, a growing number of studies are being conducted by the global scientific community in various areas, such as on the composition and quality of the biofuel, its environmental, social and economic impacts. In the area of chemical engineering, the main focus of study is in the methods of production of biodiesel. The supercritical route, on which the triglyceride transesterification reactions from vegetable oils takes place in operating conditions exceed the critical properties of the lower alcohols, shows up as an alternative to subcritical route because of the absence of glycerin and water as by-products of transesterifications, as well as high yields despite the difficulty caused by the need for operation in extreme conditions of temperature and pressure. For the calculation of equilibrium constants and conversions of the transesterification reactions, it is necessary to know thermodynamic properties of the compounds involved, but such data are scarce in the literature due to the complexity of the reagents and reactional mixtures. Therefore, estimation methods are required for determination of such properties. The two approaches presented in this work used group contribution methods for the prediction of critical parameters (temperature and pressure), normal boiling temperatures, heat capacities, enthalpies and entropies, and acentric factors. The study of chemical equilibrium id held by the determination of equilibrium constants as a function of temperature, composition of the reaction mixture, non-ideality by fugacity coefficients and pressure effects and excess methanol for the calculation of equilibrium conversions point optimum conditions for operating temperatures of 600 to 650 K and pressures above 110 bar.Trabalho de Conclusão de Curso (Graduação)O biodiesel tem se apresentado nas últimas décadas como um ótimo substituto dos combustíveis fósseis, sendo menos emissor de gases nocivos à atmosfera terrestre e menos contribuinte ao aumento do aquecimento global. Para o desenvolvimento de suas aplicações, um número crescente de estudos está sendo realizado pela comunidade científica mundial em diversas áreas, como sobre a composição e qualidade do biocombustível, seus impactos ambientais, sociais e econômicos. Na área da engenharia química, o foco principal de estudo é no tocante dos métodos de produção de biodiesel. A rota supercrítica, que compreende as reações de transesterificação de triglicerídeos provenientes de óleos vegetais em condições de operação superiores às propriedades críticas dos álcoois de cadeia curta, mostra-se como alternativa à rota subcrítica por não apresentar glicerina e água como subprodutos das transesterificações, assim como altos rendimentos apesar da dificuldade ocasionada pela necessidade de operação em condições extremas de temperatura e pressão. Para o cálculo das constantes e conversões de equilíbrio das reações de transesterificação, são necessárias as propriedades dos compostos envolvidos, porém tais dados são escassos na literatura devido à complexidade dos reagentes e das misturas reacionais. Sendo assim, são necessários métodos de estimação de tais propriedades. As duas abordagens apresentadas neste trabalho utilizaram métodos de contribuição de grupos para a predição de parâmetros críticos (temperatura e pressão), temperatura normal de ebulição, capacidades caloríficas, entalpias e entropias, e fator acêntrico. O estudo do equilíbrio químico realizado através da determinação das constantes de equilíbrio em função de temperatura, composição da mistura reacional, não idealidade através dos coeficientes de fugacidade e os efeitos de pressão e excesso de metanol para o cálculo das conversões de equilíbrio apontam condições ótimas de operação para temperaturas de 600 a 650 K e pressões acima de 110 bar.Universidade Federal de UberlândiaBrasilEngenharia QuímicaReis, Miria Hespanhol Mirandahttp://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4773556J4&tokenCaptchar=03AGdBq25RAQXoWP5VmYqqTByHNm1ik-tmIwqb2zIHkPWAguayEupGB1uC9qi6XEbF86rRgraJqhFVaZcZ3Zcff1Cfb57t2IsIl3woRplHlxW0lLFZEYBLxbsoLVkdpet_hTkgr3KNKcSDXkyBRbMauK5jflLHBmF9bfFJ-4U3PhsA-YXd-QK1hbhKXXPAjcVP5__0SWNZ8Y7kCSg0sVnZ0syesVVc3v4YxuIBNi8rhhQTmB8hkfRBLAdXbIbNtLZRskMvoBaXuBU8nV2twWp4OkhksKtQMYL4ICgVSUz1_PUf79vwtgpZ4YrfmIdjlmzMX-juKpK7eLcAvqh2U1dinY-zhWnY1wft9uN1Z3Idvv74hZvTuu1R4EUQnDNHi79k589VrSaKskoEQbH7378Z8CIL0mWrLsIFPWWJq-oypFSmSqvwZtgC_GhMNIMpc3leWNA0Dpiio5UaCardoso, Vicelma Luizhttp://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4787074J7&tokenCaptchar=03AGdBq26QGGyLyIAcg9g7H_VpMcjNPO4wvygU0ZGhQ9QDMIfJG64qW7QLWDfPkTTUr3m2q2SiuwRUxMBcdCtBAdJVLKWrKrusTm-BvgEWQNSUrtUte8s4G-045CztoSbuWjvsbI_v0TaFQs-iJoIs5R2iyZJClpEnGhVP7pcnlQMc4bsfVPjrpFauZ5aWL8avmOgV0a1c5J1bdeHwiWxy_PAVn9OqvEllWwlw4x90E56X0riRVdxMAjhrVa8swF-pOlZ98Qwu-k2ZYSOv3pSWUqGQLOOYLI7PSUp-MlUJSR4O57OZ08MKInDYD0bd9hKcjV6csMIwvtsnLqg77khnsZKx2kROt99swnpbOHYWgb4BUJ0xDfKHGiJgtR4nVtSbmq6yte3P7yf1VTIP2DcKBLRI9hjKbG1_42dL3lIqxfF2Bt-IyVTZ2cFHdaOWggb6_Wd_gzNn4bUyFerreira, Eduardo de Paulohttp://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K8374437E8&tokenCaptchar=03AGdBq272efLUnyaoke7sPinDUoSXFmLJ5wozpIAL8YXsriZQQHFNuA9WpCq8n1LOzmsLbEQYhzVcG5Ao1qetITlNlF-j8KPjzk-wgmWtpjhpBNt872p5sxYj2PKIXUsKeyJcY-NOMPZoXSPKCnHTSwhrxcok483gVKRGxqGjeVeDLZbNbpPbD26gJvLPKMMEl34U7DljYL2AaRX3pGo4cNVQRp9MBmzQ7-Slr2OMx_wcQ77YmKH4zQZutTdGB0D9esGvVEIrKdL_7wLKQOZOV7CgH5n4nix1IS_Yio3bLVDO6EGIOQgz_wh6ZQ4cUBE3VpG3ixJ_V4AedNS_PQBMqT2Anto1cRI10cJjKmQG4E9MZfHoSqdJJ3Zps9cnHWDjnj7ewXKbd53JygkUEJzkGc6jvvlnPHznUcYDDUArIFRtkNotS5SAtQxJRXNPUKWK0-WA1uT8Ym2SBessa, Lidiane Pereirahttp://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4975486D5&tokenCaptchar=03AGdBq26GD9WLqjcjQTIsPCBB1h4Q96GBrvEoLTFJhVNjQ00w7-D8uQJDmJhclmmTlPrBwg36USwO5rXr5D9UWp_5HJxyNQBUfFk8pS76jSMjmbmbyJYlOsfsxzbQ27OowMWJBINno4GCMk0CCGhN8t0BcG4v0qQfNiW1DBpGEfJx52QyqzX16ZfGvwPrSQgt4eh3xMJOFChtJ4L09lJXMGdCZkx8Mj7zTkeMI0k-SbXaXLxVMhRHKoNe35sIG5dZT9-ZXUU-eWoLoak8cDAJBJIkxrWm_vIF6TmCIt2kRxyhLfE4-uus2UM2-M9aiHpPvroh3o8kvWlj7W3G_cynMtvr5lPAkHAb15o6JrprJKOeeHuAgrFdFkXpj5Sh9cZM9wY93hvK0mZp1EenAy30HqLLesQUqVPod8-bbmSDdijexJrrZh7na6Srx27ftsNQ0lSE19gIzvyURodrigues, Lucas2021-11-05T17:00:03Z2021-11-05T17:00:03Z2018-12-20info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/bachelorThesisapplication/pdfRODRIGUES, Lucas. Equilíbrio químico nas reações de obtenção do biodiesel. 2018. 34 f. Trabalho de Conclusão de Curso (Graduação em Engenharia Química) – Universidade Federal de Uberlândia, Uberlândia, 2021.https://repositorio.ufu.br/handle/123456789/33157porhttp://creativecommons.org/licenses/by-nc-nd/3.0/us/info:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFUinstname:Universidade Federal de Uberlândia (UFU)instacron:UFU2021-11-06T06:32:18Zoai:repositorio.ufu.br:123456789/33157Repositório InstitucionalONGhttp://repositorio.ufu.br/oai/requestdiinf@dirbi.ufu.bropendoar:2021-11-06T06:32:18Repositório Institucional da UFU - Universidade Federal de Uberlândia (UFU)false |
| dc.title.none.fl_str_mv |
Equilíbrio químico nas reações de obtenção do biodiesel Chemical balance in the reactions to obtain biodiesel |
| title |
Equilíbrio químico nas reações de obtenção do biodiesel |
| spellingShingle |
Equilíbrio químico nas reações de obtenção do biodiesel Rodrigues, Lucas Biodiesel Óleos vegetais Transesterificação Equilíbrio químico Rota supercrítica Vegetable oils Chemical equilibrium Supercritic route CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA |
| title_short |
Equilíbrio químico nas reações de obtenção do biodiesel |
| title_full |
Equilíbrio químico nas reações de obtenção do biodiesel |
| title_fullStr |
Equilíbrio químico nas reações de obtenção do biodiesel |
| title_full_unstemmed |
Equilíbrio químico nas reações de obtenção do biodiesel |
| title_sort |
Equilíbrio químico nas reações de obtenção do biodiesel |
| author |
Rodrigues, Lucas |
| author_facet |
Rodrigues, Lucas |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Reis, Miria Hespanhol Miranda http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4773556J4&tokenCaptchar=03AGdBq25RAQXoWP5VmYqqTByHNm1ik-tmIwqb2zIHkPWAguayEupGB1uC9qi6XEbF86rRgraJqhFVaZcZ3Zcff1Cfb57t2IsIl3woRplHlxW0lLFZEYBLxbsoLVkdpet_hTkgr3KNKcSDXkyBRbMauK5jflLHBmF9bfFJ-4U3PhsA-YXd-QK1hbhKXXPAjcVP5__0SWNZ8Y7kCSg0sVnZ0syesVVc3v4YxuIBNi8rhhQTmB8hkfRBLAdXbIbNtLZRskMvoBaXuBU8nV2twWp4OkhksKtQMYL4ICgVSUz1_PUf79vwtgpZ4YrfmIdjlmzMX-juKpK7eLcAvqh2U1dinY-zhWnY1wft9uN1Z3Idvv74hZvTuu1R4EUQnDNHi79k589VrSaKskoEQbH7378Z8CIL0mWrLsIFPWWJq-oypFSmSqvwZtgC_GhMNIMpc3leWNA0Dpiio5Ua Cardoso, Vicelma Luiz http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4787074J7&tokenCaptchar=03AGdBq26QGGyLyIAcg9g7H_VpMcjNPO4wvygU0ZGhQ9QDMIfJG64qW7QLWDfPkTTUr3m2q2SiuwRUxMBcdCtBAdJVLKWrKrusTm-BvgEWQNSUrtUte8s4G-045CztoSbuWjvsbI_v0TaFQs-iJoIs5R2iyZJClpEnGhVP7pcnlQMc4bsfVPjrpFauZ5aWL8avmOgV0a1c5J1bdeHwiWxy_PAVn9OqvEllWwlw4x90E56X0riRVdxMAjhrVa8swF-pOlZ98Qwu-k2ZYSOv3pSWUqGQLOOYLI7PSUp-MlUJSR4O57OZ08MKInDYD0bd9hKcjV6csMIwvtsnLqg77khnsZKx2kROt99swnpbOHYWgb4BUJ0xDfKHGiJgtR4nVtSbmq6yte3P7yf1VTIP2DcKBLRI9hjKbG1_42dL3lIqxfF2Bt-IyVTZ2cFHdaOWggb6_Wd_gzNn4bUy Ferreira, Eduardo de Paulo http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K8374437E8&tokenCaptchar=03AGdBq272efLUnyaoke7sPinDUoSXFmLJ5wozpIAL8YXsriZQQHFNuA9WpCq8n1LOzmsLbEQYhzVcG5Ao1qetITlNlF-j8KPjzk-wgmWtpjhpBNt872p5sxYj2PKIXUsKeyJcY-NOMPZoXSPKCnHTSwhrxcok483gVKRGxqGjeVeDLZbNbpPbD26gJvLPKMMEl34U7DljYL2AaRX3pGo4cNVQRp9MBmzQ7-Slr2OMx_wcQ77YmKH4zQZutTdGB0D9esGvVEIrKdL_7wLKQOZOV7CgH5n4nix1IS_Yio3bLVDO6EGIOQgz_wh6ZQ4cUBE3VpG3ixJ_V4AedNS_PQBMqT2Anto1cRI10cJjKmQG4E9MZfHoSqdJJ3Zps9cnHWDjnj7ewXKbd53JygkUEJzkGc6jvvlnPHznUcYDDUArIFRtkNotS5SAtQxJRXNPUKWK0-WA1uT8Ym2S Bessa, Lidiane Pereira http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4975486D5&tokenCaptchar=03AGdBq26GD9WLqjcjQTIsPCBB1h4Q96GBrvEoLTFJhVNjQ00w7-D8uQJDmJhclmmTlPrBwg36USwO5rXr5D9UWp_5HJxyNQBUfFk8pS76jSMjmbmbyJYlOsfsxzbQ27OowMWJBINno4GCMk0CCGhN8t0BcG4v0qQfNiW1DBpGEfJx52QyqzX16ZfGvwPrSQgt4eh3xMJOFChtJ4L09lJXMGdCZkx8Mj7zTkeMI0k-SbXaXLxVMhRHKoNe35sIG5dZT9-ZXUU-eWoLoak8cDAJBJIkxrWm_vIF6TmCIt2kRxyhLfE4-uus2UM2-M9aiHpPvroh3o8kvWlj7W3G_cynMtvr5lPAkHAb15o6JrprJKOeeHuAgrFdFkXpj5Sh9cZM9wY93hvK0mZp1EenAy30HqLLesQUqVPod8-bbmSDdijexJrrZh7na6Srx27ftsNQ0lSE19gIzvyU |
| dc.contributor.author.fl_str_mv |
Rodrigues, Lucas |
| dc.subject.por.fl_str_mv |
Biodiesel Óleos vegetais Transesterificação Equilíbrio químico Rota supercrítica Vegetable oils Chemical equilibrium Supercritic route CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA |
| topic |
Biodiesel Óleos vegetais Transesterificação Equilíbrio químico Rota supercrítica Vegetable oils Chemical equilibrium Supercritic route CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA |
| description |
Biodiesel has been shown in recent decades as a great substitute for fossil fuels, being a less harmful gases emitter to Earth's atmosphere and a least contributor to global warming. For the development of its applications, a growing number of studies are being conducted by the global scientific community in various areas, such as on the composition and quality of the biofuel, its environmental, social and economic impacts. In the area of chemical engineering, the main focus of study is in the methods of production of biodiesel. The supercritical route, on which the triglyceride transesterification reactions from vegetable oils takes place in operating conditions exceed the critical properties of the lower alcohols, shows up as an alternative to subcritical route because of the absence of glycerin and water as by-products of transesterifications, as well as high yields despite the difficulty caused by the need for operation in extreme conditions of temperature and pressure. For the calculation of equilibrium constants and conversions of the transesterification reactions, it is necessary to know thermodynamic properties of the compounds involved, but such data are scarce in the literature due to the complexity of the reagents and reactional mixtures. Therefore, estimation methods are required for determination of such properties. The two approaches presented in this work used group contribution methods for the prediction of critical parameters (temperature and pressure), normal boiling temperatures, heat capacities, enthalpies and entropies, and acentric factors. The study of chemical equilibrium id held by the determination of equilibrium constants as a function of temperature, composition of the reaction mixture, non-ideality by fugacity coefficients and pressure effects and excess methanol for the calculation of equilibrium conversions point optimum conditions for operating temperatures of 600 to 650 K and pressures above 110 bar. |
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2018 |
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2018-12-20 2021-11-05T17:00:03Z 2021-11-05T17:00:03Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/bachelorThesis |
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publishedVersion |
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RODRIGUES, Lucas. Equilíbrio químico nas reações de obtenção do biodiesel. 2018. 34 f. Trabalho de Conclusão de Curso (Graduação em Engenharia Química) – Universidade Federal de Uberlândia, Uberlândia, 2021. https://repositorio.ufu.br/handle/123456789/33157 |
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RODRIGUES, Lucas. Equilíbrio químico nas reações de obtenção do biodiesel. 2018. 34 f. Trabalho de Conclusão de Curso (Graduação em Engenharia Química) – Universidade Federal de Uberlândia, Uberlândia, 2021. |
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https://repositorio.ufu.br/handle/123456789/33157 |
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por |
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Universidade Federal de Uberlândia Brasil Engenharia Química |
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Universidade Federal de Uberlândia Brasil Engenharia Química |
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reponame:Repositório Institucional da UFU instname:Universidade Federal de Uberlândia (UFU) instacron:UFU |
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