Home » News » Rocky Heat Conduction Within a Stationary Drum

Rocky Heat Conduction Within a Stationary Drum

Rocky DEM Heat Conduction Within a Stationary Drum



Heat transfer in particulate materials is a key phenomenon in a variety of industrial applications. Very often material is handled and stored in granular form and is need to be heated or cooled for a given process.

Rotary calciners are a common mixing device in metallurgical and catalyst industries. In general lines, they are long rotating drums with or without internal baffles. Their walls are heated and then the particles within them are heated and dried due to the heat transferred by conduction between the walls and the particles.

Since Rocky DEM software explicitly considers inter-particle and particle-to-boundary interactions, and with the latest 3.10 release now includes heat exchange, Rocky is a useful tool for studying heat transfer in granular materials in rotary calciners, helping engineers to design and optimize these equipments.

In the videos below, the particles and vessel temperatures are initially at 298K. Then, the curved wall is quickly heated up to 1298K and the evolution of the particles’ temperature is monitored over time. In the first video, the drum does not rotate while in the second video, the drum rotates at 30 RPM.


Video1 – Heat conduction within a stationary drum


Video 2 – Heat conduction within a rotating drum

Videos 1 and 2 show the influence of the drum speed on the averaged bed temperature, demonstrating that higher speed vessels lead to faster thermal uniformity.

Rocky DEM - 1-Temperature-evolution-for-different-roational-speeds
Figure 1 – Temperature evolution for different rotational speeds

The graph in Figure 1 shows that higher speed rotations results in higher average bed temperatures.

ROCKY DEM - 2-Drum-views-in-Rocky-showing-how-roational-speed-affects-particle-temperature-over-time
Figure 2 – Drum views in Rocky showing how rotational speed affects particle temperature over time

The drum view matrix in Figure 2 demonstrates that regions with cold particles (dark blue) shrink faster for higher speed drums.

Using Rocky, the DEM evaluation of different geometries and operating conditions can be made quickly. Moreover, the Rocky-Fluent coupling capabilities now enables—in Rocky DEM release 3.10—users to account for the heat transfer between fluids and particles, enlarging the range of processes that can be modeled using DEM.

In an upcoming post, Rocky DEM coupling with ANSYS CFD will be presented.

For more information, or to discuss your requirements with one of our consultants, please contact us at info@cadfemuk.com, or call +353 (0)16 763 765 (Ireland) or +44 (0)844 212 5900 (UK)


Select Country: