2013 Help me understand this report
Isothermal and non-isothermal water and oil two-phase flow (core-flow) in curved pipes
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Cited by 11 publications
(10 citation statements)
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“…Segundo Pereira et al (2010), isso pode ser atribuído ao pequeno comprimento do trecho analisado e ao elevado número de Prandtl para o óleo pesado 1 (Pr = 45146,654). Resultados semelhantes foram obtidos pelos autores Albuquerque et al (2007 a, b) e Andrade et al (2013). Na Figura 2, também é possível observar que a viscosidade do óleo pesado também é uniforme na entrada do domínio analisado (z = 0 m).…”
Section: Resultsunclassified
“…Segundo Pereira et al (2010), isso pode ser atribuído ao pequeno comprimento do trecho analisado e ao elevado número de Prandtl para o óleo pesado 1 (Pr = 45146,654). Resultados semelhantes foram obtidos pelos autores Albuquerque et al (2007 a, b) e Andrade et al (2013). Na Figura 2, também é possível observar que a viscosidade do óleo pesado também é uniforme na entrada do domínio analisado (z = 0 m).…”
Section: Resultsunclassified
“…O óleo pesado é caracterizado por sua alta viscosidade e densidade em relação ao óleo convencional e seu transporte é um dos principais desafios na indústria de petróleo devido à alta perda de carga decorrente dos efeitos viscosos (Albuquerque et al, 2007 a, b;Andrade et al, 2013;Marinho, 2012;Santos et al, 2010;Pereira Filho et al, 2010). A produção e o transporte de óleos pesados em águas profundas, por exemplo, apresenta grandes dificuldades, pois a viscosidade do óleo pesado, que depende apenas da temperatura, pode ser afetada consideravelmente pela temperatura da água do mar (Barbosa, 2004 apud Marinho, 2012 …”
Section: Introductionunclassified
“…However, the influence of the gas phase in the core-flow on pipelines and connections is still not well defined, and further studies are needed to ensure the efficiency of the technique in this physical situation. The tests of the related phenomena that emerged in connections were evaluated by Wang et al [9], Andrade et al [10], Andrade et al [11], Andrade et al [12], Andrade et al [13] and Crivelaro et al [14]. Particularly with reference to reduction of pressure drop in flow, Brauner et al [15] has reported a correlation applied to heavy-oil/water two-phase flow in an annular flow pattern.…”
Section: Heavy-oil Transport Techniquesmentioning
confidence: 99%
“…Depending on the oil viscosity, the expenses with petroleum transport may be affected adversely. For instance, heavy oil flow leads to a large pressure drop due to high oil viscosity, resulting in a significant amount of energy required to pump the fluid and an increase in operating costs (Andrade et al, 2013;Dunia et al, 2011;Hasan et al, 2010;Gadelha et al, 2013;Martínez-Palou et al, 2011). In addition, the extraction of petroleum in deep waters, where the water temperature is approximately 5 °C, is still challenging since the oil viscosity is a function of the temperature (Albuquerque et al, 2007;Marinho, 2012).…”
Section: Introductionmentioning
confidence: 99%
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