Contribution to a More Reproductible Method for Measuring Yield Stress of Waxy Crude Oil Emulsions

Barbato, Carla Napoli; Nogueira, Bruno; Khalil, Márcia Cristina; Fonseca, Roberto da; Gonçalves, Marcelo A. L.; Pinto, José Carlos; Nele, Márcio

doi:10.1021/ef401976r

Cited by 17 publications

(23 citation statements)

References 26 publications

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Section: Water-in-oil Emulsionsmentioning

confidence: 99%

“…Water-in-crude oil emulsions generally undergo a solgel transition as temperature is decreased, especially for waxy oils (Hemmingsen et al 2005;Visintin et al 2008;Paso et al 2009;Maia Filho et al 2012;Haj-shafiei et al 2013;Barbato et al 2014;Sun et al 2014). The yield stress of these gelled emulsions may be very high (of the order of 1000 Pa), and an accurate and reproducible method for its measurement still lacks (Barbato et al 2014). To the large number of difficulties already found in the determination of the rheological properties of waxy crude oils (Marchesini et al 2012), several other arise, due to many additional factors that influence the gel structure and hence the bulk rheology (Visintin et al 2008;Paso et al 2009;Maia Filho et al 2012;Sun et al 2014).…”

Section: Water-in-oil Emulsionsmentioning

confidence: 99%

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Bingham’s model in the oil and gas industry

2017

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Yield stress fluid flows occur in a great many operations and unit processes within the oil and gas industry. This paper reviews this usage within reservoir flows of heavy oil, drilling fluids and operations, wellbore cementing, hydraulic fracturing and some open-hole completions, sealing/remedial operations, e.g., squeeze cementing, lost circulation, and waxy crude oils and flow assurance, both wax deposition and restart issues. We outline both rheological aspects and relevant fluid mechanics issues, focusing primarily on yield stress fluids and related phenomena. Special Issue to celebrate the centennial anniversary of the seminal Bingham paper.

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Section: Water-in-oil Emulsionsmentioning

confidence: 99%

Section: Water-in-oil Emulsionsmentioning

confidence: 99%

Bingham’s model in the oil and gas industry

2017

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“…Área temática: Simulação, Otimização e Controle de Processosparafina na amostra (Barbato et al, 2014). Portanto, é necessário definir-se um tempo de condicionamento mínimo, porém suficientemente longo, capaz de garantir que medidas reológicas posteriores sejam imparciais.…”

Section: Resultsunclassified

Avaliação Estatística Das Principais Variáveis Que Influenciam O Módulo De Armazenamento Elástico De Emulsões De Água Em Petróleo Parafínico

Marinho¹,

Barbato²,

Souza³

et al. 2015

Anais Do XX Congresso Brasileiro De Engenharia Química

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RESUMO -O petróleo é uma mistura complexa de vários componentes. No entanto, as parafinas de alto peso molecular são as principais responsáveis pelos vários problemas encontrados durante a produção, transporte e armazenamento do petróleo. Em situações de parada no bombeamento do óleo em plataformas marítimas, o fluido contido no interior da tubulação resfria-se de forma quiescente devido às baixas temperaturas do fundo do oceano (em torno de 4 ºC). Esse cenário favorece ao aparecimento de cristais de parafina com tendência a aglomerar-se e a formar um gel que concede alta tensão de escoamento ao fluido. Para reiniciar o bombeamento em uma tubulação contendo fluido gelificado, uma grande diferença de pressão deve ser aplicada por um período de tempo prolongado, a fim de permitir que as ondas mecânicas destruam a estrutura do gel. Nos casos em que a pressão é insuficiente para retomar o bombeamento, faz-se necessário a substituição da tubulação ou mesmo o abandono do poço. Portanto, a compreensão dos fatores que influenciam na formação, na resistência e na quebra dos géis no interior das tubulações é de vital importância. No presente trabalho, um planejamento fatorial foi elaborado para obtenção de medidas de módulo de armazenamento elástico (G') em emulsões A/O, eseus principais fatores de influência. Um estudo estatístico, bem como uma equação empírica para predição da resistência dos géis baseado em valores de G',foram concebidos com o auxílio do softwareStatistica®.

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“…Since the solubility of high molecular weight waxes decreases sharply with the decrease in temperature, they precipitate out and crystallize. This result indicates that in low temperatures, it is more probably to have problems of flow assurance due to pipeline blockage occasioned by wax crystal depositions and to the formation of a highstrength gel, characterized by yield stress [35][36][37]. Another common factor studied on precipitation and morphology of waxy crystals is the aging time, which represents the influence of the time at a certainly constant temperature on the crystal wax.…”

Section: Figure 2 Pl Micrographs Of Test Performed At 5°c On Quiescementioning

confidence: 99%

“…This result can be attributed to the Ostwald ripening of wax crystals, a mechanism by which the large crystals grew at the expenses of smaller crystals of higher energy. Furthermore, oil uptake can also change the wax crystal distribution, leading to larger and softer wax crystals that can interpenetrate increasing intermolecular interactions between crystals [11,37,38]. Table 2 shows the wax crystal's average length at t = 0 h and after 1 h (t = 1 h) at temperatures 40, 20, and 5°C, as well as the crystal growth percentage in function of aging time.…”

Section: Figure 2 Pl Micrographs Of Test Performed At 5°c On Quiescementioning

confidence: 99%

Wax Chemical and Morphological Investigation of Brazilian Crude Oils

Chrisman¹,

Duncke²,

Oliveira³

et al. 2020

Paraffin - An Overview

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The waxes in petroleum can precipitate and form unwanted gels and deposition when exposed to low temperatures. The idea of this chapter is to approach methods of quantification and physicochemical and morphological characterization of waxes and how this information can help in understanding this deposition. Information such as the quantity of waxes and the chemical structures in the oil is fundamental to predict the possible deposition and its ability to aggregate with other crystals. For example, the knowledge about the wax morphology may contribute to explain the nucleation and growth of the deposits. The polarized light microscopy, the most common technique to visualize wax crystals, and the brightfield microscopy, the most simple technique, able to show crystal details that have not been seen on the polarized light, was used.

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Contribution to a More Reproductible Method for Measuring Yield Stress of Waxy Crude Oil Emulsions

Cited by 17 publications

References 26 publications

Bingham’s model in the oil and gas industry

Bingham’s model in the oil and gas industry

Avaliação Estatística Das Principais Variáveis Que Influenciam O Módulo De Armazenamento Elástico De Emulsões De Água Em Petróleo Parafínico

Wax Chemical and Morphological Investigation of Brazilian Crude Oils

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