加州San Joaquin Valley东北部McKittrick油田Temblor地层碳储存和二氧化碳增强采收率潜力

Q2 Earth and Planetary Sciences
K. Harrington, J. Gillespie
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引用次数: 1

摘要

研究人员收集了加利福尼亚San Joaquin Valley McKittrick油田Phacoides砂岩的净流体产量和压力数据,以估计可用的存储空间和使用提高采收率(EOR)提高采收率的潜力。Phacoides油藏已经生产了6150万桶流体,相当于980万公吨的地下容量。油藏压力随流体产量的变化表明,注入100万公吨可能会使油藏压力提高2 MPa (255 psi)。我们假设储层的封闭能力相当于控制原始油气聚集的条件。如果注入压力超过这个极限,则可能从老化的井眼或沿油藏断层渗漏穿过盖层。断裂作用将储层划分为6个具有不同程度水力连通的主要区块。在每个封闭断块内都需要打注水井,这就导致了实施碳捕获与封存(CCS)项目的额外成本。通过eor,可以开采额外的1700万桶石油,从而抵消了碳储存的成本。这相当于140万吨额外的存储空间。然而,假设没有任何碳被捕获,这些额外石油的燃烧将向大气中增加约700万吨的碳,抵消了储层中的可用存储空间,导致大气中的净碳收益为70万吨。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Carbon storage and CO2-enhanced oil recovery potential in the Temblor Formation, northeast McKittrick oilfield, San Joaquin Valley, California
Net fluid production and pressure data were gathered to estimate the amount of storage space available and the potential for additional oil recovery using -enhanced oil recovery (EOR) in the Phacoides sandstone, McKittrick oilfield, San Joaquin Valley, California. The Phacoides reservoir has produced 61.5 million reservoir barrels of fluid, a volume equivalent to the subsurface capacity of 9.8 million metric tons of . Reservoir pressure changes with fluid production suggest that injecting 1 million metric tons of may raise reservoir pressures by 2 MPa (255 psi). We assume that the sealing capacity of the reservoir for injection is equivalent to the conditions controlling the original hydrocarbon accumulation. If injection pressures exceed this limit, the could leak through the caprock, from aging wellbores or along faults in the reservoir. Faulting has compartmentalized the reservoir into six major blocks with varying degrees of hydraulic communication. Injection wells will be required within each sealed fault block, resulting in additional costs for implementing a carbon capture and sequestration (CCS) project. Through -EOR, an additional 17 million bbl of oil may be recoverable, thereby offsetting the cost of carbon storage. This is equivalent to 1.4 million metric tons of additional storage space. However, assuming that none of the carbon is captured, combustion of this additional oil will add approximately 7 million metric tons of to the atmosphere, negating the available storage space in the reservoir and resulting in a net carbon gain to the atmosphere of 700,000 metric tons.
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来源期刊
Environmental Geosciences
Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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