What is it about?

This work explores the thermophysical properties and molecular interactions of a fuel oxygenate mixture at different temperatures. The researchers focused on studying the density and molar volumes of imidazolium-based ionic liquid mixtures and predicting them using the Jouyban–Acree model. By understanding the molecular interactions between the components of the fuel oxygenate mixture, the goal is to improve the burning efficiency of fuel and reduce greenhouse gas emissions. The document provides experimental data on the density and viscosity of the binary mixture and analyzes the correlations using the Jouyban–Acree model. Spectroscopic analysis techniques are also used to validate the molecular interactions in the mixture. Overall, this research provides insights into the thermophysical properties and molecular interactions of fuel oxygenate mixtures, which can contribute to the development of more efficient and environmentally friendly fuels.

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Why is it important?

The work provides valuable insights into the fuel oxygenate mixture, which can be useful in the field of chemical engineering and energy. The study is unique in its approach and findings and can be helpful to researchers and professionals in the field. As the article provides recent results on the topic, it can be of particular interest to those working in this area. The article's relevance and potential impact on improving knowledge and understanding of fuel oxygenate mixture can increase readership by researchers and students in the related fields.

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This page is a summary of: Thermophysical properties and molecular interactions of fuel oxygenate mixture at different temperatures via Jouyban–Acree model, January 2023, American Institute of Physics,
DOI: 10.1063/5.0116695.
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