A revised assessment of the CO2 storage capacity and enhanced oil recovery potential in the major oil fields of Ohio

Q2 Earth and Planetary Sciences Environmental Geosciences Pub Date : 2017-03-01 DOI:10.1306/EG.05161615019

Jared Hawkins, Srikanta Mishra, R. Stowe, K. Makwana, J. Main

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引用次数: 5

Abstract

ABSTRACT Two different approaches have been used to evaluate the potential for CO 2 geologic sequestration and CO 2 -assisted enhanced oil recovery in the major oil fields in Ohio: a volumetrics-based method, which uses field volumetric data to calculate CO 2 storage capacity, and a production-based method, which uses historical oil and gas production data to calculate CO 2 storage capacity. The fields were selected based on their historical importance as oil and gas producers as well as the availability of data in published sources. The storage capacity found using the production data–based methodology—878 million t—is believed to be more representative than that found using the volumetrics-based method because it uses actual production data to calculate void space for CO 2 storage rather than estimated efficiency factors. This estimated capacity is higher than previously reported values based on efficiency factors and is enough to support the storage of 25% of annual emissions from 45 of Ohio’s largest power plants for a period of 36 yr.

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俄亥俄州主要油田二氧化碳储存能力和提高采油潜力的修订评估

摘要俄亥俄州主要油田采用了两种不同的方法来评估CO2地质封存和CO2辅助提高采收率的潜力：一种是基于体积法，使用油田体积数据计算CO2储存能力；另一种是生产法，使用历史油气生产数据计算CO2存储能力。这些油田是根据其作为石油和天然气生产商的历史重要性以及已公布来源的可用数据来选择的。使用基于生产数据的方法发现的储存容量为8.78亿吨，被认为比使用基于容量法发现的储存能力更具代表性，因为它使用实际生产数据来计算CO2储存的空隙空间，而不是估计的效率系数。这一估计容量高于之前基于效率因素报告的值，足以支持俄亥俄州45家最大发电厂在36年内储存25%的年排放量。

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Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)

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