On the Non-Ideality of Hydrocarbon Fluids: Implications for Natural Gas Engineering - Part B

Authors

  • Luis F Ayala The Pennsylvania State U.

Abstract

This work presents a unified treatment of non-ideality that ties together the ubiquitous concepts of compressibility factor, Joule-Thomson coefficient, fugacity coefficient, and fugacity that are routinely used in natural gas engineering. The development is based on the identification of common misconceptions and the construction of a unified approach for the analysis of non-ideality. Starting with the basic ideal equation of state, an integrated treatment is progressively built in which the concept of non-ideality is thoroughly reviewed and its implications for natural gas engineering extensively discussed. The treatment of non-ideality given here is unique in scope and non existent in the available natural gas engineering literature. In the second part of this series, the implications of the non-ideality for natural gas engineering are reviewed and discussed.

Author Biography

Luis F Ayala, The Pennsylvania State U.

Luis F. Ayala is Assistant Professor of Petroleum and Natural Gas Engineering at the Pennsylvania State University , USA. He has also been an Instructor in the Chemical Engineering and Petroleum Engineering Departments at Universidad de Oriente (Venezuela). His research activities focus on the areas of natural gas engineering, hydrocarbon phase behavior, multiphase flow, numerical modeling, and artificial intelligence. He holds PhD and MS degrees in Petroleum and Natural Gas Engineering from the Pennsylvania State University and two BS degrees, one in Chemical Engineering (summa cum laude) and another in Petroleum Engineering (summa cum laude) from Universidad de Oriente (Venezuela). He is a member of the Society of Petroleum Engineers, National Association of Engineers of Venezuela and the Canadian Petroleum Society.

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Published

2006-11-15

How to Cite

Ayala, L. F. (2006). On the Non-Ideality of Hydrocarbon Fluids: Implications for Natural Gas Engineering - Part B. E-Journal of Reservoir Engineering, 1(1). Retrieved from https://petroleumjournals.online/journals/index.php/reservoir/article/view/8

Issue

Vol. 1 No. 1 (2006)

Section

Technical Notes

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