The throat is an important part of the glass melting tank furnaced. In this paper, the effect of the throat construction melting behavior is studied, and especially the influence of the throat width is given by three ...The throat is an important part of the glass melting tank furnaced. In this paper, the effect of the throat construction melting behavior is studied, and especially the influence of the throat width is given by three dimensional modeling. The mathematical modeling method can be used as an important analysis tool for furnace design.展开更多
The sand grain dissolution process in the glass furnace is very important from the standpoint of final glass quality. In this paper, a mathematical modeling is presented to describe the sand grain dissolution in the g...The sand grain dissolution process in the glass furnace is very important from the standpoint of final glass quality. In this paper, a mathematical modeling is presented to describe the sand grain dissolution in the glass bated or in the glass melt. The calculations showed the sand grain dissolution process depended strongly on temperature and initial sand grain diameter. Forced and free convection in the glass melt can also increase the dissolution rate. The numerical results could help glass technologists in better understanding and optimizing the sand dissolution process.展开更多
文摘The throat is an important part of the glass melting tank furnaced. In this paper, the effect of the throat construction melting behavior is studied, and especially the influence of the throat width is given by three dimensional modeling. The mathematical modeling method can be used as an important analysis tool for furnace design.
文摘The sand grain dissolution process in the glass furnace is very important from the standpoint of final glass quality. In this paper, a mathematical modeling is presented to describe the sand grain dissolution in the glass bated or in the glass melt. The calculations showed the sand grain dissolution process depended strongly on temperature and initial sand grain diameter. Forced and free convection in the glass melt can also increase the dissolution rate. The numerical results could help glass technologists in better understanding and optimizing the sand dissolution process.