非常规石油生产对全球油气行业产生了深远影响。国内页岩油产量的激增，尤其是二叠纪盆地的页岩油产量的激增，在保持低油价方面发挥了重要作用，同时也推动北美成为主要的石油生产国。

尽管如此，根据能源与环境研究中心 (EERC) 的数据，水力压裂只能回收油藏中约 7% 的石油。即使横向长度较长，致密储层由于渗透率低，也呈现出比常规储层更陡的递减曲线。根据国家能源技术实验室 (NETL) 的数据，美国已知储量中尚有大量石油（约 400 桶）有待在致密岩石中开采。

各种研究和行业专家声称，致密岩油藏的密度不利于注水，而且蒸汽注入可能成本太高。由于这些原因，CO ₂ EOR 方法很可能成为非常规石油生产的下一个前沿领域。

尽管在非常规油气藏中广泛开展的 EOR 工作大部分仍属于未知领域，但至少有一家公司已经在 Eagle Ford 破解了密码，并在致密岩层 CO ₂ EOR 方面看到了积极的成果。与此同时，一些公司和政府机构正在对非常规油气田（尤其是巴肯）的 EOR 研究进行大量投资。

_{但是，在非常规资源中实施 CO 2} EOR所面临的挑战与业界在面临任何其他挑战时所熟悉的挑战相同：经济和专业知识。非常规资源可能需要采用非常规的 EOR 方法。美国安全能源研究伙伴关系 (RPSEA) 就是研究此类恢复工作的机构之一。

业务项目总监 Jack Belcher 表示：“这将是[非常规储量 EOR] 需要一段时间才能破解安全的事情之一，最好是合作解决这个问题。”对于 RPSEA。“这里有这样做的意愿，但对于油价为 50 美元的公司来说，没有意愿在这方面花很多钱。” [EOR] 是一种完全不同的动物，渗透性较低。可能需要政府计划来推动它。”

EERC 研究巴肯

_{位于北达科他州大福克斯的 EERC 是探索非常规资源中 CO 2} EOR可能性的组织之一。具体来说，EERC 由州和政府机构以及多家石油公司资助，正在研究 CO ₂ EOR的潜在利用在巴肯。

2012 年，EERC 启动了巴肯CO ₂封存和 EOR的研究，第一阶段使用储层特征和实验室数据，如岩心分析、测井和石油分析。该研究第一阶段的结果显示，CO ₂有可能从巴肯储层岩石中回收超过 90% 的碳氢化合物，从巴肯页岩中回收超过 60% 的碳氢化合物。然而，EERC 首席地质学家吉姆·索伦森 (Jim Sorensen) 表示，这些数字“非常高”，在实际应用中可能不现实。

“当我们谈论 90% 的去除率时，这是在实验室条件下在非常小的岩心塞上进行的，重点是尽可能多地提取石油，”他说。“我们不相信每个人都能从中巴肯地区获得 90% 的资源，或者从页岩中获得 60% 的资源。”

该研究的第一阶段已于 2014 年完成，第二阶段的研究最近才由 EERC 启动。索伦森表示，第二阶段涉及应用 EERC 在第一阶段实验室工作中了解到的信息和数据，在巴肯进行现场测试。

“我认为我们从机制的角度理解了较小尺度上正在发生的事情，以及如何在水库尺度上更新它，”他说。“第二阶段最重要的部分是把我们在实验室和建模中看到的东西带到现场，尝试进行科学上可靠的现场测试。”

6 月下旬，EERC 与 XTO Energy 合作，在巴肯未增产的直井上启动了现场注入测试。索伦森表示，CO ₂注入现场测试进行了大约两周，结果可能会在今年年底公布。

“这个特殊的测试不会给我们一个像[第一阶段看到的]那样的直接数字，但我们认为我们生成的数据将帮助我们预测模型并预测最终的恢复情况，”他说。

_{Sorensen表示，在非常规油藏中广泛实施CO 2} EOR的最大障碍之一是克服一致性问题。根据哈里伯顿的说法，一致性技术是“油藏和钻孔的应用过程，有助于减少不需要的水和/或气体的产生，从而有效地提高碳氢化合物采收率。”

“裂缝使一致性变得困难，但并非不可能，”索伦森说。“需要通过额外的工程来理解的一件事是，我们需要弄清楚如何控制一致性。我个人的信念是，我们距离实现一致性还差几年的时间。EOG [资源] 的那些人可能已经找到了一致性的解决方案。如果他们能弄清楚，其他人也能弄清楚。”

鹰福特 EOG

EOG Resources 似乎已经找到了答案。这家总部位于休斯敦的独立石油天然气公司似乎已经破解了非常规油藏CO _{2 EOR 的密码。}据 EOG 称，该公司三年前开始进行 EOR，并在其 Eagle Ford 基地的 15 口井的 4 个试点项目中取得了生产和经济上的成功。2016 年，EOG 在 Eagle Ford 完成了 32 孔试验，也取得了成功。该公司在一份电子邮件声明中表示，正在对另外 100 口井实施 EOR。

EOG Resources 投资者关系工程师 John Wagner 表示：“OR 将成为我们未来 Eagle Ford 开发的常规部分，一旦我们获得更多数据点和生产历史，我们希望提供可归因于 EOR 的总资源估算。” 。

EOG Resources 勘探与生产执行副总裁 Lloyd Helms Jr. 在该公司 2016 年第四季度电话会议上表示，其 32 井项目的经济性包括发现成本低于 6 美元/桶，并且在 2011 年至2016 年，该公司取得了良好的成果，井距范围为 61 m 至 152 m（200 ft 至 500 ft）。Helms 表示，EOG Resources 在 2016 年的 EOR 工作中产生了 300 Mbbl 的净石油产量。

“这一数据支持了我们之前的估计，即 EOR 带来的增量采收率使我们的初次采收率估计增加了 30% 至 70%，”Helms 说。

EOG 传统上在追问其具体方法和技术时持保留态度，称此类信息是专有的。但它表明，在非常规资源中实施 CO ₂ EOR 时存在两个关键组成部分：了解地质情况和制定成功钻井计划的重要性。EOG 首席执行官 William Thomas 在公司 2016 年第一季度电话会议上表示，在 Eagle Ford 中有效的方法不一定在其他地方也有效。

“鹰福特是独一无二的，”托马斯说。“Eagle Ford 的地质特征使其在初级开发中富有成效，也使其在提高石油采收率方面具有独特性。我们用于从 Eagle Ford 生产增量石油的 EOR 工艺不一定适用于其他水平盆地。第二，你最初如何练习这个领域很重要。二次回收最适合使用最佳完工和最佳间距开发的租赁单元。”

也许最重要的是，EOG 找到了如何使页岩 EOR 在经济上可行。该公司的优质钻井计划已成为赫尔姆斯所说的低成本生产的“改变者”，而其在 Eagle Ford 的 EOR 计划可与这些回报相媲美。

“我们找到了如何经济地执行 EOR 的方法，”托马斯说。“该流程的实施回报率可与我们的优质钻探相媲美，并且随着时间的推移，发现成本将显着降低。”

一个诱人的目标

除了EOG 所取得的成功之外，CO ₂ EOR 方法在非常规油藏中的广泛实施仍处于早期开发阶段。EERC 以及德克萨斯理工大学、RPSEA 和怀俄明大学等机构的多项努力取得了不确定但令人鼓舞的结果。NETL 和美国能源部等其他机构正在资助非常规油藏 EOR 的研究。

根据研究出版公司爱思唯尔 (Elsevier) 发表的一项研究，“对这些矿床进行的 EOR 研究很少，部分原因是它们的开采是最近才进行的。但潜力是巨大的，主要挑战也是如此：渗透率极低。

报告称，“低廉的价格使投资者和公司专注于在页岩气最经济的地区钻探新页岩。” “在这些最佳点耗尽且价格走高之前，页岩油 EOR 的任何进展都可能陷入停滞。但由于 95% 或更多的石油被留下，页岩仍将是一个诱人的目标。”

请通过bwalzel@hartenergy.com联系作者。

Unconventional oil production has had a far-reaching impact on the worldwide oil and gas industry. The surge of domestic shale oil production, particularly from the Permian Basin, has played a large role in keeping the price of oil low while also pushing North America to be a leading oil producer.

Still, hydraulic fracturing only recovers about 7% of oil in a reservoir, according to the Energy and Environmental Research Center (EERC). And even with longer lateral lengths, tight reservoirs present steeper decline curves than conventional reservoirs because of low permeability. That leaves vast amounts of oil— about 400 Bbbl in known U.S. reserves, according to the National Energy Technology Laboratory (NETL)—left to be recovered in tight rocks.

Various studies and industry experts claim the density of tight rock reservoirs isn’t conducive to waterflood, and steam injection is likely to prove too costly. For those reasons, CO₂ EOR methods could very well be the next frontier in unconventional oil production.

Although widespread EOR efforts in unconventional plays are still mostly uncharted territory, at least one company has cracked the code in the Eagle Ford and is seeing positive results in tight rock CO₂ EOR. Meanwhile, several companies and government agencies are making significant investments in research for EOR in unconventional plays, particularly in the Bakken.

But the challenges for implementing CO₂ EOR across unconventional resources are the same that are familiar to the industry when facing just about any other challenge: economics and know-how. Unconventional resources will likely require an unconventional approach to EOR. Among those looking into such recovery efforts is the Research Partnership to Secure Energy for America (RPSEA).

“It’s going to be one of those things where [EOR in unconventional reserves is] going to take a while to crack the safe, and it’s best to work on that collaboratively,” said Jack Belcher, business program director for RPSEA. “There’s a will to do it, but there is no will for companies at $50 oil to spend much money on it. [EOR] is a completely different animal with low permeability. It could take a government program to get it going.”

EERC studies the Bakken

Among the organizations exploring the possibilities of CO₂ EOR in unconventional resources is the EERC in Grand Forks, N.D. Specifically, the EERC, which is funded by state and government agencies as well as several oil companies, is researching the potential utilization of CO₂ EOR in the Bakken.

In 2012 the EERC initiated a study of CO₂ storage and EOR in the Bakken, with Phase 1 using reservoir characterization and laboratory data such as core analyses, well logs and oil analyses. The study’s Phase 1 results revealed CO₂ could potentially recover more than 90% of hydrocarbons from Bakken reservoir rocks and more than 60% from Bakken shales. However, Jim Sorensen, EERC principal geologist, said those numbers were “crazy high” and likely would not be realistic in real-world applications.

“When we talk about 90% removal, that is on very small core plugs under lab conditions where the whole point is to extract as much oil as we can,” he said. “We don’t believe everyone can get 90% from the Middle Bakken or 60% from shales.”

Phase 1 of the study was completed in 2014, and Phase 2 was only recently initiated by the EERC. Sorensen said Phase 2 involves applying the information and data the EERC learned in its Phase 1 laboratory work to perform field tests in the Bakken.

“We think we understand what’s going on at smaller scales at the mechanism standpoint and how to update that on the reservoir scale,” he said. “The biggest part of Phase 2 is to take things we saw in the lab and in modeling and go to the field to try to do a scientifically robust field test.”

In late June the EERC, in partnership with XTO Energy, initiated a field injection test on an unstimulated vertical well in the Bakken. Sorensen said the CO₂ injection field test was conducted over a period of about two weeks, with the results potentially being made public by the end of the year.

“This particular test will not give us a direct number like [the ones seen in Phase 1], but we think the data we generate will help us predict a model and predict what final recovery might be,” he said.

Sorensen said one of the biggest barriers to widespread implementation of CO₂ EOR in unconventional reservoirs is overcoming the problem of conformance. According to Halliburton, conformance technology is “the application process to reservoirs and boreholes to help reduce production of unwanted water and/or gas to efficiently enhance hydrocarbon recovery.”

“Fractures make conformance difficult but not impossible,” Sorensen said. “One of the things that needs to be understood through additional engineering is that we need to figure out how to control conformance. My personal belief is we’re a couple of years away from figuring out conformance. Those guys at EOG [Resources] may have figured out the solution to conformance. If they can figure it out, someone else can figure it out too.”

EOG in the Eagle Ford

EOG Resources has, it appears, figured it out. The Houston- based independent oil and gas company appears to have cracked the code of CO₂ EOR in unconventional reservoirs. According to EOG, the company began working on EOR three years ago and achieved production and economic success on four pilots involving 15 wells at its Eagle Ford site. In 2016 EOG completed a 32-well pilot at Eagle Ford that was also successful. The company said in an emailed statement that it was implementing EOR on another 100 wells.

“EOR will become a regular part of our Eagle Ford development going forward, and once we have more datapoints and production history, we hope to provide a total resource estimate attributable to EOR,” said John Wagner, engineer investor relations for EOG Resources.

Lloyd Helms Jr., executive vice president of E&P for EOG Resources, said during the company’s fourth-quarter 2016 conference call that its 32-well project’s economics included a finding cost of less than $6/bbl, and between 2011 and 2016 the company saw favorable results with well spacing ranging from 61 m to 152 m (200 ft to 500 ft). Helms said EOG Resources produced 300 Mbbl of net oil production from its EOR efforts in 2016.

“This data supports our previous estimates that the incremental recovery due to EOR is adding 30% to 70% more oil to our primary recovery estimates,” Helms said.

EOG has traditionally been reserved when pressed on its specific methods and technologies, saying such information is proprietary. But it has revealed that two key components exist when implementing CO₂ EOR at an unconventional resource: the importance of understanding the geology and developing a successful drilling plan. What works in the Eagle Ford may not necessarily work somewhere else, said EOG CEO William Thomas during the company’s first-quarter 2016 conference call.

“The Eagle Ford is unique,” Thomas said. “The same geologic characteristics that make the Eagle Ford prolific in primary development also make it unique for enhanced oil recovery. The EOR process we are using to produce incremental oil out of the Eagle Ford is not necessarily applicable to other horizontal basins. No. 2, how you initially drill the field matters. Secondary recovery works best on leased units that were developed using the best completions with optimal spacing.”

And perhaps most importantly, EOG figured how to make EOR in shale economically feasible. The company’s premium drilling program has turned into what Helms calls a “game changer” in terms of low-cost production, and its EOR program in the Eagle Ford rivals those returns.

“We figured out how to execute EOR economically,” Thomas said. “The process can be implemented at rates of return that rival our premium drilling and significantly lower finding costs over time.”

A tempting target

Outside of the successes seen by EOG, widespread implementation of CO₂ EOR methods in unconventional reservoirs is still in the early developmental stages. Several efforts by institutions such as the EERC and also Texas Tech University, RPSEA and the University of Wyoming have yielded inconclusive but encouraging results. Other institutions such as NETL and the U.S. Department of Energy are funding efforts to study EOR in unconventional reservoirs.

According to a study published by Elsevier, a research publishing company, “Little EOR research has been done on these deposits, in part because their exploitation has been so recent. But the potential is huge—and so is the major challenge: extremely low permeability.

“Low prices have kept investors and companies focused on drilling new shales in the most economical areas of shale plays,” the report stated. “Until these sweet spots are exhausted and prices head higher, any progress on EOR in shale is likely to be stalled. But with 95% or more of the oil left behind, shale will remain a tempting target.”

Contact the author at bwalzel@hartenergy.com.