Measurement of speed of sound and thermal diffusivity of ethyl heptanoate using light scattering method

•Experimental data of speed of sound and thermal diffusivity of ethyl heptanoate were presented.•The measured region is from 293.15 K to 483.15 K and up to 10 MPa, including saturated liquid and compressed liquid.•Experimental data were fitted as the functions of temperature and pressure.•The dependence of speed of sound and thermal diffusivity on temperature and pressure was analyzed.

Fatty acid ethyl esters are the main components of biodiesels, the increasing use of biodiesels requires the study of thermophysical properties. This paper measured the speed of sound and the thermal diffusivity in liquid ethyl heptanoate from 293.15 K to 483.15 K and up to 10 MPa using light scattering method. The relative expanded uncertainties in the speed of sound and the thermal diffusivity are estimated to be less than 0.5% and 3.0% with coverage factor of k equaling 2. The data were also fitted into polynomials. For the speed of sound, the AADs between the experimental and calculated values are 0.21% in saturated liquid and 0.21% in compressed liquid. For the thermal diffusivity, the AADs are 0.46% in saturated liquid and 0.40% in compressed liquid. The temperature and pressure influence on the speed of sound and the thermal diffusivity were also analyzed.

Graphical abstractThe spectrum of scattered light of ethyl heptanoate at T = 432.45 K and p = 5.50 MPa.Figure optionsDownload full-size imageDownload high-quality image (147 K)Download as PowerPoint slide