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Mudstone microstructure in a macro-stratigraphic context: Relationship to reservoir storage and flow capacity

宏观地层背景下的泥岩微观结构：与储层储量和流量的关系

基本信息

批准号：
461626-2013
负责人：
Plint, Alexander
金额：
$ 0.85万
依托单位：
University of Western Ontario
依托单位国家：
加拿大
项目类别：
Collaborative Research and Development Grants
财政年份：
2018
资助国家：
加拿大
起止时间：
2018-01-01 至 2019-12-31
项目状态：
已结题

来源：
https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=662316
关键词：
Mudstone microstructure macro stratigraphic context

项目摘要

Growing global demand for petroleum and natural gas has necessitated finding new supplies to replace declining conventional production. Traditionally, shales have been viewed as 'non-reservoir' rocks and hence of little economic importance. However, in the last decade, shales have undergone a dramatic re-appraisal in terms of their hydrocarbon resource potential. One aspect of this is driven by the development of horizontal drilling technology combined with multistage hydraulic fracture treatments to facilitate economic flow rates from very low permeability shale formations. In addition, there has been an explosion of interest in, and a steadily expanding understanding of, the various geological processes that govern mud sedimentation. Included are the physical, chemical and biological processes that cause mud particles to aggregate together, the physical processes that transport mud into and across sedimentary basins, the biochemical processes that control the cementation of mud and organic particles at burial depths of centimetres to a few metres, and the physical and chemical processes that control compaction and maturation of organic matter to burial depths of several km. This sequence of processes determines the microfabric governing the rock's capacity to store and transmit fluids, and may play an important role in the conversion of disseminated organic matter to petroleum. The proposed project will provide improved understanding of the depositional and burial processes that have affected specific shale formations in Alberta and British Columbia. The resulting knowledge may help to guide exploration efforts in these 'unconventional reservoirs', potentially leading to delineation of greater oil and gas reserves, with consequent implications for employment, royalties, and benefit to the overall Canadian economy.

全球对石油和天然气的需求不断增长，必须寻找新的供应来取代不断下降的传统产量。传统上，页岩被视为“非储层”岩石，因此经济意义不大。然而，在过去十年中，页岩在其油气资源潜力方面经历了一次戏剧性的重新评估。其中一个方面是水平钻井技术的发展，结合多级水力压裂处理，以提高极低渗透率页岩地层的经济流量。此外，人们对控制泥浆沉积的各种地质过程的兴趣激增，了解也在稳步扩大。包括导致泥浆颗粒聚集在一起的物理、化学和生物过程，将泥浆输送到沉积盆地和穿过沉积盆地的物理过程，控制泥浆和有机颗粒在几厘米到几米深的埋藏深度的胶结的生化过程，以及控制有机质压实和成熟的物理和化学过程，这些过程的顺序决定了控制岩石储存和传输流体能力的微组构，并可能在浸染有机质向石油的转化中起重要作用。拟议的项目将提高对影响阿尔伯塔省和不列颠哥伦比亚省特定页岩地层的沉积和掩埋过程的理解。由此产生的知识可能有助于指导这些“非常规油藏”的勘探工作，可能导致更大的石油和天然气储量的划定，从而影响就业、特许权使用费和加拿大整体经济的利益。