Journal
FLUID PHASE EQUILIBRIA
Volume 436, Issue -, Pages 85-97Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.fluid.2017.01.002
Keywords
Equation of state; CPA; Derivative properties; alpha function; Critical point
Funding
- KBC Advanced Technologies Limited (A Yokogawa Company)
- Infochem-KBC
- FCT/MEC [POCI-01-0145-FEDER-007679, UID/CTM/50011/2013]
- FEDER
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Although the CPA EoS was initially developed 20 years ago to meet industrial solicitations, namely the need to describe mixtures of hydrocarbons and water, including the formation and dissociation of hydrates, it has only recently received a widespread use in mid-stream and downstream oil and gas processing, or in the petrochemical and chemical industries. one of the reasons for such limited use of the model in the industry is the necessity to parameterize every associating component from saturation data. This involves access to pure component databases and some advanced knowledge in therniodynamics and numerical methods, which are often behind the scope of process design engineers. This work revisits the CPA model, evaluating its strengths and weaknesses and attempting at identifying some opportunities for improvement. Using n-alkanols from Cl to C10 and their mixtures with other n-alkanols and n-alkanes, it investigates the description of the pure component critical points, saturated liquid densities as a function of temperature and some secorld-order derivative properties. It also explores new methodologies to regress the CPA parameters in a more systematic way, making it easier to generate parameters with less intervention from the user. (C) 2017 Elsevier B.V. All rights reserved.
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