I work for the particle radiation in dense granular system. A useful radiation model has been tested in LIGGGHTS, and it is also can be applied in CFD-DEM.
I am not permitted to open my code. But it is very easy to understand the numerical model from my paper:
1.Wu, H., Gui, N., Yang, X., Tu, J. and Jiang, S., 2016. Effect of scale on the modeling of radiation heat transfer in packed pebble beds. International Journal of Heat and Mass Transfer, 101, pp.562-569.(based on LIGGGHTS)
2.Wu, H., Gui, N., Yang, X., Tu, J. and Jiang, S., 2017. Numerical simulation of heat transfer in packed pebble beds: CFD-DEM coupled with particle thermal radiation. International Journal of Heat and Mass Transfer, 110, pp.393-405. (based on CFDEM)
If anyone interests the radiation model, please let me known.
ckloss | Sun, 04/23/2017 - 11:41
Hi Wu,
Hi Wu,
thanks for the interesting note!
Best wishes
Christoph
runtowhere | Thu, 07/27/2017 - 04:08
Hi
Hi, I am now reading these two paper and interested in your work!
Best,
Yujia
wuhaoinet | Sun, 07/30/2017 - 15:56
maybe you can cite the paper
maybe you can cite the paper in your next work. Any more idea...?
JoG | Wed, 10/04/2017 - 13:36
Hi,
Hi,
I am also reading your paper, thank you for the hint!
Best,
Johannes
wuhaoinet | Thu, 10/05/2017 - 05:52
any more idea or cite the
any more idea or cite the paper, please let me known
Weijing | Thu, 10/05/2017 - 08:12
Incorporating new heat transfer model
Hi Hao,
I am very interested in incorporating a new heat transfer model into LIGGGHTS. Would you like to give me some hint about how to modify those codes? We can have some discussion by email if you have time. Thanks for any suggestion.
Cheers
Weijing
wuhaoinet | Sun, 10/08/2017 - 05:37
I am not permitted to open my
I am not permitted to open my code. But withVoro++(http://math.lbl.gov/voro++/), the radiation model can be realized easily.