本研究的目標係針對台灣油氣生產層中的裂隙儲積層,展開定性及定量的分析,以瞭解裂隙在隙儲積所扮演的角色特別是對生產的影響程度。研究的首要工作是確立裂隙在儲積層分佈的時空及其成因,由大而小區分不同的尺度等級以區分其不同的特性,以及利用現有的地下震測、電測及巖心資料來預測地底下裂隙定量的分佈。進一步比較裂隙特性與岩石物性之間的關係,以做為裂隙儲積層分類的依據,同時整合各項地質、地物及物性資料對裂隙形成的地質環境綜合分析。最後由以上包含震測、電資料析及解釋、斷層處理、地質環境分析及整合解釋建立地質的模型,並將複雜的地質的模型與以簡化成裂隙的地質模型,以作為模擬油氣生產的參考指數。研究初期擬從中油以往油氣生產礦區選定目標地區,初步以出磺坑、鐵鉆山或官田礦區作為研究目標,因為這些礦區有相當多的鑽井及地下地質、地球物理和井測的資料。若資料允許,可進一步研究台南盆地」F」構造的裂隙時空分佈特性,由於目前中油公司正著手開發高雄外海的構造,籍由與中油及學術界雙方的合作,研究成果可直接應用到實務的油氣探勘與開發。The main purpose of this research is to analyze the fractures, both qualitatively and quantitatively, and study the roles of fractures play in the fractured reservoirs among western Taiwan oil and gas production field. The first approach is to identify temporal and spatial distribution, and occurrence of fractures in the reservoir rocks. Seismic profile, logging and core data are used to detect subsurface distribution, characterize the scale and zonation of fractures and their individual characteristics. Correlation between factures and rock physical data, such as porosity and permeability, can further be used to classify the reservoir type. In the next step, a generalized geological model can be established on the basis of integrating above geological, geophysical and rock physical data. The last step is to build up a simplified fracture parameter model from a complicated geological model on which a successful simulation of production in fractured reservoirs can be soundly based. Research target area includes Chuhuangkeng, Tiechanshan or Kuantien area, where sufficient drilled wells, geophysical and geological data are available. If permissible, the 「F」 structure located in Tainan Basin of offshore Kaohsiung area is also a potential study area since oil ad gas exploration and development is currently deployed in this field by Chinese Petroleum Corporation. Through bilateral cooperation between industry and academia, the study results can be directly applied to practical oil and gas exploration and development. 研究期間:9601 ~ 9612