Response of Integrated CO2 Capture and Storage Systems in Saline Aquifers and Fractured Shale Formations to Changes in CO2 Capture Costs

机译：盐水含水层中综合CO2捕获和储存系统对二氧化碳捕获成本变化的响应

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Fractured shale formations are new potential target reservoirs for CO2 capture and storage (CCS) and provide several potential advantages over storage in saline aquifers in terms of storage capacity, leakage risk, and cost savings from brownfield development. We used a geospatial-optimization, engineering-economic model to investigate the sensitivity of integrated CCS networks in Ohio, Pennsylvania, and West Virginia to reductions in CO2 capture costs. These reductions in CO2 capture costs were based on hypothetical cases where technological innovation reduced CO2 capture costs. There were small differences in the spatial organization of the CCS deployment when the capture costs were reduced. We also found that the percent reduction in average cost of CCS systems became smaller as the CO2 capture costs were decreased.

机译：裂缝页岩形成是CO2捕获和储存（CCS）的新潜在目标储层，并在储存能力，泄漏风险和棕色地区开发的成本节约方面提供几种在盐水含水层中储存的潜在优势。我们使用了地理空间优化，工程 - 经济模型来调查俄亥俄州，宾夕法尼亚州和西弗吉尼亚州综合CCS网络的敏感性，以减少二氧化碳捕获成本。这些减少二氧化碳捕获成本是基于技术创新减少二氧化碳捕获成本的假设案例。当捕获成本减少时，CCS部署的空间组织存在较小的差异。我们还发现，随着CO2捕获成本降低，CCS系统的平均成本百分比变得更小。

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《International Conference on Greenhouse Gas Control Technologies》|2017年|3840-4594p.|共7页
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Julie K. Langenfeld; Jeffrey M. Bielicki; Zhiyuan Tao;
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carbon sequestration; geologic carbon storage; CCS; hydraulic fracturing; shale; resource assessment;

机译：碳封存;地质碳储存;CCS;液压压裂;页岩;资源评估;

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1. Reducing costs of carbon capture and storage by shared reuse of existing pipeline-Case study of a CO2 capture cluster for industry and power in Scotland [J] . Brownsort Peter A., Scott Vivian, Haszeldine R. Stuart International Journal of Greenhouse Gas Control . 2016,第Null期

机译：通过共享现有管道的再利用来降低碳捕获和存储的成本-苏格兰工业和电力用二氧化碳捕获集群的案例研究
2. The CO2 Pilot at Lacq:An Integrated Oxycombustion CO2-Capture and-Storage Project [J] . Journal of Petroleum Technology Group Journal of Petroleum Technology . 2008,第7期

机译：Lacq的CO2试点：氧燃烧CO2捕集与封存综合项目
3. Influence of CO2-Brine Co-injection on CO2 Storage Capacity Enhancement in Deep Saline Aquifers: An Experimental Study on Hawkesbury Sandstone Formation [J] . Rathnaweera T. D., Ranjith P. G., Perera M. S. A., Energy & fuels . 2016,第5期

机译：CO2盐水共注入对深盐含水层CO2储存能力增强的影响：Hawkesbury砂岩形成的实验研究
4. Response of Integrated CO2 Capture and Storage Systems in Saline Aquifers and Fractured Shale Formations to Changes in CO2 Capture Costs [C] . Julie K. Langenfeld, Jeffrey M. Bielicki, Zhiyuan Tao International Conference on Greenhouse Gas Control Technologies . 2017

机译：盐水含水层中综合CO2捕获和储存系统对二氧化碳捕获成本变化的响应
5. Economic Evaluation of Capturing CO2 from Natural Gas Power Plant and Injecting CO2 for Enhanced Oil Recovery as an Integrated System [D] . Allahyari, Nima. 2013

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6. TiO(OH)2 – highly effective catalysts for optimizing CO2 desorption kinetics reducing CO2 capture cost: A new pathway [O] . Hongbao Yao, Sam Toan, Liang Huang, -1

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7. Integrated Economic Model CO2 capture, transport, ECBM and saline aquifer storage [O] . Faltinson John, Gunter Bill 2009

机译：集成经济模式的二氧化碳捕获，运输，ECBM和盐水层存储

Response of Integrated CO2 Capture and Storage Systems in Saline Aquifers and Fractured Shale Formations to Changes in CO2 Capture Costs

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