Avalia??o de diferentes processos oxidativos avan?ados no tratamento de res?duos de petr?leo

Rocha, Otidene Rossiter S? da

01 September 2010

Made available in DSpace on 2014-12-17T15:01:50Z (GMT). No. of bitstreams: 1 OtideneRSR_DISSERT.pdf: 1647726 bytes, checksum: 2a45d120fb2b82e3a84f67c77eff85a3 (MD5) Previous issue date: 2010-09-01 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / The petroleum industry deals with problems which are difficult to solve because of their relation to environmental issues. This is because amounts of residue are generated which vary in type and danger level. The soil contamination by non aqueous liquid phase mixtures, specifically hydrocarbon petroleum has been a reason for great concern, mainly the aromatic and polycyclic aromatic, which present risk to human health due to its carcinogenic and mutagenic character. The Advanced Oxidative Processes (AOP) are efficient technologies for destruction of organic compounds of difficult degradation and, often, they are present in low concentrations. They can be considered clean technologies, because there is no formation of solid by-products or the transfer of pollutor phases. This work focuses on the study of the degradation of petroleum industrial waste, by Advanced Oxidation Processes. Treatments tackling petroleum residues, contaminated soil, and water occurring in the production of petroleum reached the following Polycyclic Aromatic Hydrocarbons (PAH) degradation levels: solid residues 100% in 96 treatment hours; water residue - 100% in 6 treatment hours; soil contamination (COT degradation) - 50.3% in 12 treatment hours. AOP were effective in dealing with petroleum residues thus revealing themselves to be a promising treatment alternative / A ind?stria de petr?leo lida com problemas de dif?cil solu??o em rela??o ?s atividades voltadas para a prote??o ambiental, devido ? gera??o de res?duos de diversos tipos e n?veis de periculosidade. A contamina??o do solo por compostos de fase l?quida n?o aquosa, especificamente os hidrocarbonetos de petr?leo tem sido motivo de preocupa??o, principalmente os arom?ticos e poliarom?ticos, apresentam risco ? sa?de humana devido a seu car?ter carcinog?nico e mutag?nico. Os Processos Oxidativos Avan?ados (POA) s?o tecnologias eficientes para destrui??o de compostos org?nicos de dif?cil degrada??o biol?gica e, muitas vezes, presentes em baixas concentra??es. Podem ser consideradas tecnologias limpas, pois n?o h? a forma??o de subprodutos s?lidos e nem a transfer?ncia de fase dos poluentes. O objetivo desse trabalho foi estudar a degrada??o de res?duos da ind?stria de petr?leo, por Processos Oxidativos Avan?ados. Foram realizados tratamentos de borra de petr?leo, solo contaminado com petr?leo e ?gua de produ??o de petr?leo alcan?ando uma degrada??o de Hidrocarbonetos Polic?clicos Arom?ticos (HPA) de 100 % em 96 horas de tratamento para a borra, 100% em 6 horas de tratamento para ?gua de produ??o de petr?leo e uma degrada??o de Carbono Org?nico Total (COT) de 50,3% em 12 horas de tratamento para o solo contaminado com petr?leo. Os POA foram eficientes no tratamento de res?duos de petr?leo apresentando-se como uma alternativa promissora no tratamento desses res?duos

Petroleum waste

Photochemistry degradation

Heterogeneous Photocatalysis

Hydrocarbons

CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA

Degradacao termica e catalitica da borra oleosa de Petroleo com materiais nanoestruturados al-mcm-41 e AL-SBA-15

Paulino, Ana Adalgisa Dias

04 November 2012

Made available in DSpace on 2014-12-17T14:09:14Z (GMT). No. of bitstreams: 1 AnaADP_TESE.pdf: 2810011 bytes, checksum: 6f11363dfc6e540fe688b7737b77893b (MD5) Previous issue date: 2012-11-04 / Aiming to reduce and reuse waste oil from oily sludge generated in large volumes by the oil industry, types of nanostructured materials Al-MCM-41 and Al-SBA-15, with ratios of Si / Al = 50, were synthesized , and calcined solids used as catalysts in the degradation of oily sludge thermocatalytic oil from oilfield Canto do Amaro, in the state of Rio Grande do Norte. Samples of nanostructured materials were characterized by thermogravimetric analysis (TG / DTG), X-ray diffraction (XRD), scanning electron microscopy (SEM), absorption spectroscopy in the infrared Fourier transform (FT-IR) and adsorption nitrogen (BET). The characterization showed that the synthesized materials resulted in a catalyst nanostructure, and ordered pore diameter and surface area according to existing literature. The oily sludge sample was characterized by determining the API gravity and sulfur content and SARA analysis (saturates, aromatics, resins and asphaltenes). The results showed a material equivalent to the average oil with API gravity of 26.1, a low sulfur content and considerable amount of resins and asphaltenes, presented above in the literature. The thermal and catalytic degradation of the oily sludge oil was performed from room temperature to 870 ? C in the ratios of heating of 5, 10 and 20 ? C min-1. The curves generated by TG / DTG showed a more accelerated degradation of oily sludge when it introduced the nanostructured materials. These results were confirmed by activation energy calculated by the method of Flynn-Wall, in the presence of catalysts reduced energy, in particular in the range of cracking, showing the process efficiency, mainly for extraction of lightweight materials of composition of oily sludge, such as diesel and gasoline / Com o objetivo de reduzir e reutilizar o res?duo de borra oleosa de petr?leo, gerado em grandes volumes pela ind?stria petrol?fera, materiais nanoestruturados dos tipos Al-MCM-41 e Al-SBA-15, com raz?es de Si/Al = 50, foram sintetizados, calcinados e utilizados como s?lidos catal?ticos na degrada??o termocatal?tica da borra oleosa de petr?leo, proveniente do campo petrol?fero Canto do Amaro, no estado do Rio Grande do Norte. As amostras dos materiais nanoestruturados foram caracterizadas por an?lise termogravim?trica (TG/DTG), difra??o de raios X (DRX), microscopia eletr?nica de varredura (MEV), espectroscopia de absor??o na regi?o do infravermelho com transformada de Fourier (FT-IR) e adsor??o de nitrog?nio (BET). A caracteriza??o mostrou que os materiais sintetizados resultaram em um catalisador nanoestruturado, ordenado e com di?metro de poros e ?rea superficial de acordo com a literatura existente. A amostra de borra oleosa foi caracterizada atrav?s da determina??o do grau API e do teor de enxofre e da an?lise do SARA (saturados, arom?ticos, resinas e asfaltenos). Os resultados mostraram um material equivalente ao petr?leo m?dio, com grau API de 26,1, baixo teor de enxofre e com quantidade consider?vel de resinas e asfaltenos, acima da apresentada na literatura. A degrada??o t?rmica e catal?tica da borra oleosa de petr?leo foi realizada da temperatura ambiente at? 870?C, nas raz?es de aquecimento de 5, 10 e 20oC min-1. As curvas geradas pela TG/DTG apresentaram uma degrada??o mais acelerada da borra oleosa quando se introduziram os materiais nanoestruturados. Esses resultados foram ratificados pela energia de ativa??o, calculada atrav?s do m?todo de Flynn-Wall, em que a presen?a dos catalisadores reduziu a energia, em especial na faixa de craqueamento, mostrando a efici?ncia do processo, principalmente para a extra??o de materiais leves da composi??o da borra oleosa, como diesel e gasolina

degrada??o t?rmica

Res?duo de Petr?leo

catalisadores. Al-MCM-41

Al-SBA-15

borra oleosa

flynn-Wall

thermal degradation

waste oil

catalysts

Al-MCM-41

Al-SBA-15

oil sludge

flynn-Wall