DISCUSSION ON THE EVOLUTION OF HYDROCARBONS IN THE LIGHT OF THE THEORY OF THERMODYNAMICS
-
摘要: 地质体中的石油,处于一种特殊的介质内,在漫长的地质历史时期,由于埋藏深度的增加,受着较高的温度和压力的影响,发生着改变石油成分和性质的种种演化。可以说,压力与温度是影响石油性质的主要因素。石油成分的变化,是一种化学变化。而热力学在解决化学变化方向上的正确性,已为许多化学实践所证实。本文以热力学理论为基础,侧重于压力因素的定性对比,结合我国湘中地区古生界碳酸盐岩等方面的资料,探讨石油的演化。初步研究表明,地层压力是石油演化中的一个重要因素。Abstract: Basing on the theory of thermodynamics,the influence of formation pressure on the parameters of hydrocarbons, such as enthalpy, entropy and free enthalpy,and the influence of pressure on the energy distribution in accord with the basical formula of thermodynamics AH=△G-T△S are discussed. It is pointed out that pressure is a negative factor to the pyrolysis of hydrocarbons. The reason for why there is oil still retained in Paleozoic carbonate rocks of the Xiang-Zhong district is also discussed under thermodynamic theory. According to the theoretical consideration of the gasification of oil, as low boiling-point fractions in an oil pool increasingly gasified, the probability of the destruction of the oil pool also increased. Contrarily, there is no phase change within gas pools, only the expansion of gas under heating, hence the influence of temperature and pressure on gas pool is minimized. Therefore, it is easier for gas pools than for oil pools to be presrved.Finally, some cognitions for the prospecting and exploration of areas bearing highly evolved oil and gas are suggested.
-
[1] Selected values of properties of hydrocarbons and related com pounds American peteroleum institute research project 44 volume I、Ⅱ、Ⅲ、Ⅳ、Ⅴ. [2] G.L.CHIERICI et al, Exploration and production in the very deep Malossa field,10th World Petroleum Congress 1979, Special paper. [3] А.Г.加勃里梁埃,伏尔加河下游地区的区域变质及储集岩和石油的特征,石油地质科技情报,1976.2,40-46. [4] H.J.Greenwood编,热力学在岩石学和矿床学的应用,曹万木、陈昆林译,地质出版社,1979,120. [5] 邵美成,熵及其应用,化学通报,1974,40.
计量
- 文章访问数: 816
- HTML全文浏览量: 135
- PDF下载量: 325
- 被引次数: 0