Estudo da hidrodin?mica de um novo separador l?quido-l?quido: aplica??o ao sistema ?leo-bruto/?gua produzida / Study of the hydrodynamics of a new separator for liquid-liquid systems: application to the system crude oil/waste water

Moraes, Norberto Ara?jo de

15 December 2005

Made available in DSpace on 2014-12-17T15:01:17Z (GMT). No. of bitstreams: 1 NorbertoAM.pdf: 1190502 bytes, checksum: 15fc3890db7720ac4fcdf9c75747130a (MD5) Previous issue date: 2005-12-15 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / This work aims to use a different hydrodynamic condition applied to a new design of mixer-settler on treating wastewater produced by petroleum industry, called MDIF (Misturador-Decantador ? Invers?o de Fases/ Mixer-Settler based on Phase Inversion MSPI). The use of this different hydrodynamic behaviour is possible due to vertical disposition of the device and the principle of Phase Inversion that controls the MDIF, providing the generation (creation) of a cascade of drops, into an organic layer, that works as micro-decanters, thus making possible the formation of a bed of non-coalesced drops, called Bed Formation . The use of this new hydrodynamics condition allows to increase the residence time of the oil carrier drops, into an organic layer, and the device can treat a greater volume of wastewater. In view of to get this condition it is necessary to operate at high throughput (58,6 m3.m-2.h-1). By results, the condition of Bed Formation is the best one to be used when MSPI operates with throughput up to 58,6 m3.m-2.h-1. The results using the condition of Bed Formation show that increasing the height of the bed of non-coalesced drops and/or decreasing the volumetric ratio (O/A) an increase of the separation efficiency is detected / Este trabalho objetiva utilizar uma diferente condi??o hidrodin?mica aplicada a um novo design de misturador-decantador aplicado ao tratamento de ?guas produzidas da ind?stria do petr?leo, que vem sendo denominado de MDIF (Misturador-Decantador ? Invers?o de Fases). A utiliza??o do regime hidrodin?mico de Leito Denso ? poss?vel devido a disposi??o vertical do aparelho e ao princ?pio de invers?o de fases que rege o MDIF, proporcionando a gera??o de uma cascata de gotas, na regi?o de leito org?nico, que funcionam como micro-decantadores, possibilitando assim a forma??o de um leito de gotas n?o-coalescidas, denominado de Leito Denso. A utiliza??o desta nova condi??o hidrodin?mica permite o aumento do tempo de resid?ncia da gota transportadora de ?leo, na regi?o de leito org?nico, e o trata um maior volume de ?gua produzida, visto que para se atingir esta condi??o ? necess?rio se operar a altas vaz?es (58,6 m3/m2h). A partir dos resultados obtidos, a condi??o de regime de leito denso mostra-se como a melhor condi??o a ser utilizada quando se opera o misturador-decantador ? invers?o de fases com vaz?es espec?ficas acima de 58,6 m3.m-2.h-1. Os resultados utilizando o regime de leito denso mostram que elevando-se a altura do leito de gotas n?o-coalescidas e/ou diminuindo a raz?o volum?trica org?nico/aquoso aumenta a efici?ncia de separa??o do aparelho

Processo de separa??o

Engenharia ambiental

Misturador-Decantador

Leito denso

?gua produzida

Separation process

Environmental engineering

Mixer-settler

Bed formation

Treatement of industrial waste waters

CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA

Desenvolvimento de um destilador solar para tratamento de ?guas de produ??o de petr?leo com vistas a sua utiliza??o na agricultura e gera??o de vapor / Development of a solar distillator for treatment of produced water of oil with aims its use in the agriculture and vapor generation

Sousa, Magna Ang?lica dos Santos Bezerra

02 September 2004

Made available in DSpace on 2014-12-17T15:01:15Z (GMT). No. of bitstreams: 1 MagnaASB.pdf: 1635517 bytes, checksum: df420c88397a6cd630a5381fcef348b7 (MD5) Previous issue date: 2004-09-02 / The production of petroleum is frequently accomplished with great volumes of water, that it is carried of the underground with the oil. It is a challenge of the present century the development of technologies that allow the use of waste water for purposes that consume great amounts of water and don't demand as rigid as the one of the drinking water requirements. The solar distillation has been configuring as an alternative of clean technology for desalination of brine and saline. Besides causing the minimum possible damage to the environment, it takes advantage of an abundant and free energy source: the solar energy. That study aims to develop a Solar Distillator for treatment of the produced water of the oil wells, to obtain an efluent to use in agriculture and vapor generation. The methodology for collection, conservation and analysis of the physical-chemical parameters obeyed the norms in APHA (1995). The sampling was of the composed type. Experiments were accomplished in the solar distillation pilot and simulation in thermostatic bathing. The operation was in batch system and for periods of 4, 6 and 12 h. The developed Distillator is of the type simple effect of two waters. It was still tested two inclination angles for covering; 20? and 45?. The Distillator presented minimum of 2,85 L/m2d revenues and maximum of 7,14 L/m2d. The removals of salts were great than 98%. The removal of TOC in the simulation was great than 90%. In agreement with the data of energy and mass balance, it was verified that the developed solar Distillator presented compatible revenues with those found in literature for similar types. It can be inferred that the obtained distilled water assists to the requirements CONAMA in almost all the points and could be used for irrigation of cultures such as cotton and mamona. As the distilled water has characteristics of fresh water it can be used in the generation of vapor / A produ??o de petr?leo ? realizada freq?entemente com grandes volumes de ?gua, que ? carreada do subsolo junto com o ?leo. ? desafio do presente s?culo o desenvolvimento de tecnologias que possibilitem ou uso ou reuso de efluentes para outros fins. A destila??o solar ? uma alternativa de tecnologia limpa para dessaliniza??o de ?guas salobras e salinas. Esse estudo visa desenvolver um Destilador Solar para tratamento da ?gua de produ??o de petr?leo, com vistas a se obter um efluente pass?vel de utiliza??o na agricultura e gera??o de vapor. A metodologia para conserva??o e an?lise dos par?metros f?sico-qu?micos obedeceu preconiza??o do APHA (1995). A amostragem foi do tipo composta. Foram realizados experimentos no destilador solar piloto e simula??o em banho termost?tico. A opera??o foi em sistema de batelada e por per?odos de 4, 6 e 12 h. O destilador desenvolvido ? do tipo simples efeito de duas ?guas. Testou-se ainda dois ?ngulos de inclina??o para cobertura; 20? e 45?. O destilador apresentou rendimentos m?nimo de 2,50 L/m2d e m?ximo de 7,5 L/m2d. As remo??es de sais foram superiores a 98%. A remo??o de TOC na simula??o foi superior a 90%. De acordo com os dados dos balan?os energ?tico e de massa, verificou-se que o destilador solar desenvolvido apresentou rendimentos compat?veis com os encontrados na literatura para seus similares. Enfatiza-se que o isolamento utilizado n?o estava nas condi??es de otimiza??o, logo, esse rendimento pode ser melhorado. Pode-se inferir que a ?gua destilada obtida atende aos requisitos CONAMA em quase todos os pontos, podendo ser utilizada, com ressalvas, na irriga??o de culturas n?o comest?veis como o algod?o e a mamona. Como a ?gua destilada tem caracter?sticas de ?gua doce pode ser utilizada na gera??o de vapor

?guas de produ??o

Destila??o solar

Reuso de ?guas

Gera??o de vapor

CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA

Stanovení reziduí léčiv pomocí separačních metod / Determination of drug residuals using separation methods

Vašíčková, Petra

January 2010

Nonsteroidal anti-inflammatory substances became a very frequently used and constantly evolved group of the drugs, particularly in a human medicine. The risk of their penetration into the environment, especially to the water environment, is rising during the recent years. The diploma thesis is focused on a selection of appropriate separation method and optimization of analytical procedure for the identification and determination of the non-steroidal anti-inflammatory drugs in sewage and surface waters. Salicylic acid, ketoprofen, diclofenac and ibuprofen were chosen from the wide range of NSAIDs as the most widespread agents of this drugs group in the medical practice. The method was optimized and elaborated using the model water samples. This method was used for determination of the analytes contained in the real water samples. Waste water samples were taken from the large-scale wastewater treatment plant in Brno-Modřice and surface water samples were taken from the Highlands river Křetínka. Solid phase extraction (SPE) was used for the real samples treatment and preconcentration, the determination was performed using the high performance liquid chromatography with mass spectroscopy method (LC-MS).