地层评价

地层评价（英語：）是指综合运用地质、钻井、测井和实验分析的资料,对油氣储层的成岩阶段、原生和次生矿物、各种孔(裂)隙的测定、分类、孔隙结构及它们对油气產能的影响等进行全面研究和评价[1]。影响油氣储层產能力的因素很多，如有效厚度、渗透率、孔隙度、砂体延伸长度、孔隙结构参数、层内非均质程度等。必须采用多项参数，进行综合评价[2]。

現代旋轉鑽井通常使用泥漿作為潤滑劑，並作為對井眼地層表面產生圍壓的手段，防止井噴。但泥漿濾液會滲入井眼周圍的地層中，泥餅會粘在井眼的兩側。也掩蓋了地層中可能存在的石油或天然氣得顯示。因此必須依賴檢測油氣的工具[3]。最直接和最原始的工具是泥浆录井和取芯檢查。隨著科技發達，間接的工具包括电缆测井（英語：），电阻率测井（英語：），自然电位测井（英語：），伽玛射线测井（英語：），及孔隙度测井（英語：）等均被常規運用[4]。

參考文獻

Jurgen, S. (2015). "Basic well logging and formation evaluation – eBooks and textbooks from bookboon.com". 125.234.102.27. Retrieved 13 December 2020
Kurt Ambo Nielsen (2007). Fractured aquifers: formation evaluation by well testing. Trafford Publishing. pp. 7–. ISBN 978-1-4251-3019-0
Newsham, K.E.; Rushing, J.A. (2013). "An integrated work-flow model to characterize unconventional gas resources: Part I – Geological assessment and petrophysical evaluation". doi:10.2118/71351-MS
OnePetro. "Tutorial: Introduction to resistivity principles for formation evaluation: A tutorial primer – OnePetro". onepetro.org. Retrieved 13 December 2020

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[”Jurgen”-1] Jurgen, S. (2015). "Basic well logging and formation evaluation – eBooks and textbooks from bookboon.com". 125.234.102.27. Retrieved 13 December 2020

[”Nielsen"-2] Kurt Ambo Nielsen (2007). Fractured aquifers: formation evaluation by well testing. Trafford Publishing. pp. 7–. ISBN 978-1-4251-3019-0

[”Newsham”-3] Newsham, K.E.; Rushing, J.A. (2013). "An integrated work-flow model to characterize unconventional gas resources: Part I – Geological assessment and petrophysical evaluation". doi:10.2118/71351-MS

[”OnePetro”-4] OnePetro. "Tutorial: Introduction to resistivity principles for formation evaluation: A tutorial primer – OnePetro". onepetro.org. Retrieved 13 December 2020