The reservoir accumulation characteristics and main control factors in the slope area

  IJRES-book-cover  International Journal of Recent Engineering Science (IJRES)          
  
© 2016 by IJRES Journal
Volume-3 Issue-2
Year of Publication : 2016
Authors : He Bo, Lu Jun, Chu Wendi, Wang Yang
DOI : 10.14445/23497157/IJRES-V3I2P102

How to Cite?

He Bo, Lu Jun, Chu Wendi, Wang Yang, "The reservoir accumulation characteristics and main control factors in the slope area," International Journal of Recent Engineering Science, vol. 3, no. 2, pp. 8-11, 2016. Crossref, https://doi.org/10.14445/23497157/IJRES-V3I2P102

Abstract
The objective of this paper is to investigate the evolution of the finger-rings industry in ancient Egypt during the era from the 19th dynasty to the late period of the ancient Egypt history. During this historical period ancient Egyptians continued to produce finger-rings of the swivel and solid design. The characteristics and materials are studied. The paper presents actual existing models either royal of for high officials.

Keywords
Slope area;Oil and gas accumulation; Controlling factors; Effective trap

Reference
[1] PuXiugang,WuYongping,ZhouJiansheng,etal.Characteristics and exploration potential of lithologic-stratigraphic hydrocarbon reservoirs in Qikou sag of Dagang oilfield[J].ActaPetrolei Sinica,2007,28(2):36-39.
[2] Burnham, A.K., 1989, A Simple Model of Petroleum Formation and Cracking: Lawrence Livermore Laboratory report UCID 21665, March 1989. Basic review of the kinetic conversion of kerogens to hydrocarbons.
[3] Chinn, E.W., 1991, The role of organic geochemistry in petroleum exploration: Basin Research Institute Bulletin, Louisiana State University, Baton Rouge, LA, p. 15–23. Short paper that summarizes petroleum geochemistry and its analytical techniques.
[4] Durand, B., 1980, Sedimentary organic matter and kerogen: definition and quantitative importance of kerogen, in B. Durand, ed., Kerogen: Techniq, p. 13–14.
[5] Herron, S.L., 1991, In situ evaluation of potential source rocks by wireline logs, in R.K.Merrill, ed., Source and Migration Processes and Evaluation Techniques: AAPG Treatise f Petroleum Geology, Handbook of Petroleum Geology, p. 127–134.
[6] Meyer, B.L., and M.H. Nederlof, 1984, Identification of source rocks on wireline logs by ensity/resistivity and sonic transit time/resistivity crossplots: AAPG Bulletin, vol. 68, no.2, p. 121–129. Discusses the principles and application of well log analysis to identify source rocks.
[7] Jackson, J.A,. ed., 1997, Glossary of Geology, 4th Ed.: American Geological Institute, 769 p.
[8] James, N.P., and H.H.J. Gelsetzer, 1984, Introduction, in H.H.J. Geldsetzer, N.P. James,and G.E. Tebbutt, eds., Reefs -Canada and Adjacent Areas: Canadian Society of Petroleum Geologists Memoir 13, p. 1–8.
[9] Leverson, A.I., 1954, Geology of Petroleum: San Francisco, W.H. Freeman and Co., 703 p.Logan, W.E., 1844, Canada Geological Survey Report of Progress, p. 141.
[10] Zhang zhaolu, Wang hua, Yang hong, oil and gas basin petroleum system study [ J]Oil and gas geology, 2000, 21 (2) : 133-135.