Ran Xinquan scite author profile

Ran Xinquan

5Publications

28Citation Statements Received

3Citation Statements Given

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An Assessment of a CO2 Flood for EOR and Sequestration Benefits in the Ordos Basin, Northwest China

Xinquan¹,

Zhao²,

2012

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This study evaluates reservoir and reservoir fluid parameters relevant to CO 2 flooding to enhance hydrocarbon recovery from an Ordos's Basin oilfield located in Northwest China. Field M is a tight sandstone reservoir containing light and low viscosity oil.CO 2 could be available from a power plant and a coal refining factory nearby. Laboratory experiments were conducted for the purpose of determining the crude oil MMP with CO 2 and oil PVT properties. The MMP of CO 2 flooding was determined through slimtube test and calculation of PR3equation. In addition, the utilization factor of CO 2 injected to oil was calculated at MMP with pure CO 2 , and the sequestration potential of CO 2 in field M was calculated with the sequestration coefficient multiplying recoverable reserves. We also quoted the methods mentioned in the Carbon sequestration Leadership Forum to calculate the sequestration potential of Field M. Finally, we draw a contrast among the predictive sequestration CO 2 results, and the contrast show that applying the sequestration coefficient to evaluate the CO 2 sequestration potential of field M is reasonable and reliable.

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Evolution of the Ordovician top boundary and its relationship to reservoirs' development, Ordos Basin

Xinquan¹,

Fu²,

Wei

et al. 2012

Petroleum Exploration and Development

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Nonlinear Percolation Theory for Ultralow-Permeability Reservoirs

Xinquan¹

2013

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Practice of Advanced Water Injection

Xinquan¹

2013

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Classification and Evaluation of Ultra-Low Permeability Reservoirs in the Changqing Oilfield

Xinquan¹,

Anqi²,

Zhao³

et al. 2013

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With the rapid development of the world economy, the exploration and development of unconventional oil and gas resources have become a new hot spot. As an important subset of unconventional reservoirs, ultra-low permeability(ULP) reservoirs have been greatly concerned. Studies suggest that the ultra-low permeability reservoir belongs to the typical tight reservoir. The current low-permeability reservoir classification criteria available in the literature cannot meet the actual needs of ultra-low permeability reservoir development. Through researches, reservoir characterization parameters of effective porosity, mainstream throat radius, movable fluid saturation and starting pressure gradient are screened out to build quaternary classification coefficient. A new standard of classification and evaluation of ultra-low permeability reservoirs is established, and ultra-low permeability reservoirs are divided into three categories. Thus it provides a theoretical basis for speeding up the effective development of ultra-low permeability reservoirs. Since the beginning of the 21st century, the world economy has entered a new cycle of development. The demand for oil and gas resources in the countries soared. Facing the huge demand for energy, productivity construction and production rate are relatively insufficient throughout the world. Unconventional oil and gas resources are beginning to receive more attention. Ultra-low permeability reservoirs, as important unconventional oil and gas reservoirs, have huge potential for exploration and development, but the current classification of reservoir evaluation criteria cannot meet the needs of ultra-low permeability reservoir exploration and development. In order to effectively guide the exploration and development practice of ultra-low permeability reservoirs, it is of great significance to launch researches on ultra-low permeability reservoir characterization parameter system, and to establish a new classification and evaluation criteria.

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Ran Xinquan

An Assessment of a CO2 Flood for EOR and Sequestration Benefits in the Ordos Basin, Northwest China

Evolution of the Ordovician top boundary and its relationship to reservoirs' development, Ordos Basin

Nonlinear Percolation Theory for Ultralow-Permeability Reservoirs

Practice of Advanced Water Injection

Classification and Evaluation of Ultra-Low Permeability Reservoirs in the Changqing Oilfield

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