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Thermodynamic aspects of reformulation of automotive fuels

Conference ·
OSTI ID:93373
 [1];  [2];  [3]
  1. Columbia Univ., New York, NY (United States)
  2. BOC Gases, Murray Hill, NJ (United States)
  3. Univ. Oldenburg (Germany)
+ Show Author Affiliations

A study of procedures for measuring and predicting the RVP and the initial vapor emissions of reformulated gasoline blends which contain one or more oxygenated compounds, viz., Ethanol, MTBE, ETBE, and TAME is discussed. Two computer simulation methods were programmed and tested. In one method, Method A, the D-86 distillation data on the blend are used for predicting the blend`s RVP from a simulation of the Mini RVPE (RVP Equivalent) experiment. The other method, Method B, relies on analytical information (PIANO analyzes) on the nature of the base gasoline and utilizes classical thermodynamics for simulating the same RVPE, Mini experiment. Method B, also, predicts the composition and other properties of the initial vapor emission from the fuel. The results indicate that predictions made with both methods agree very well with experimental values. The predictions with Method B illustrate that the admixture of an oxygenate to a gasoline blend changes the volatility of the blend and, also, the composition of the vapor emission. From the example simulations, a blend with 10 vol % ethanol increases the RVP by about 0.8 psi. The accompanying vapor emission will contain about 15% ethanol. Similarly, the vapor emission of a fuel blend with 11 vol % MTBE was calculated to contain about 11 vol % MTBE. Predictions of the behavior of blends with ETBE and ETBE+Ethanol are also presented and discussed. Recognizing that quite some efforts have been invested in developing empirical correlations for predicting RVP, the writers consider the purpose of this paper to be pointing out that the methods of classical thermodynamics are adequate and that there is a need for additional work in developing certain fundamental data that are still lacking.

OSTI ID:
93373
Report Number(s):
CONF-9503162--
Country of Publication:
United States
Language:
English

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Related Subjects

02 PETROLEUM
ALGORITHMS
CHEMICAL COMPOSITION
COMPUTERIZED SIMULATION
ETHERS
EXPERIMENTAL DATA
FUEL ADDITIVES
GASOLINE
MEASURING METHODS
MIXTURES
MOISTURE
RECOMMENDATIONS
SOLUBILITY
VAPOR PRESSURE