Abstract
The bench scale experiments of HTGR graphite ball-element were finished in an improved fixed bed burner, and the burning rate, thermal power, utilization ratio of oxygen, axial distribution of temperature and off-gas component were determined. The batch operation and pseudo-continuous operation have been compared. The moving bed pseudo-continuous operation is preferred because release of thermal power in moving bed pseudo-continuous operation is more steady and easy to control.
Xien, Hu;
Xuejun, Wang;
Baoqiang, Liao
[1]
- Inst. of Nucl. Energy Technology, Tsinghua Univ., Beijing (China)
Citation Formats
Xien, Hu, Xuejun, Wang, and Baoqiang, Liao.
An experimental study on burning of HTGR graphite ball-element by a fixed bed burner.
China: N. p.,
1991.
Web.
Xien, Hu, Xuejun, Wang, & Baoqiang, Liao.
An experimental study on burning of HTGR graphite ball-element by a fixed bed burner.
China.
Xien, Hu, Xuejun, Wang, and Baoqiang, Liao.
1991.
"An experimental study on burning of HTGR graphite ball-element by a fixed bed burner."
China.
@misc{etde_10118679,
title = {An experimental study on burning of HTGR graphite ball-element by a fixed bed burner}
author = {Xien, Hu, Xuejun, Wang, and Baoqiang, Liao}
abstractNote = {The bench scale experiments of HTGR graphite ball-element were finished in an improved fixed bed burner, and the burning rate, thermal power, utilization ratio of oxygen, axial distribution of temperature and off-gas component were determined. The batch operation and pseudo-continuous operation have been compared. The moving bed pseudo-continuous operation is preferred because release of thermal power in moving bed pseudo-continuous operation is more steady and easy to control.}
place = {China}
year = {1991}
month = {Aug}
}
title = {An experimental study on burning of HTGR graphite ball-element by a fixed bed burner}
author = {Xien, Hu, Xuejun, Wang, and Baoqiang, Liao}
abstractNote = {The bench scale experiments of HTGR graphite ball-element were finished in an improved fixed bed burner, and the burning rate, thermal power, utilization ratio of oxygen, axial distribution of temperature and off-gas component were determined. The batch operation and pseudo-continuous operation have been compared. The moving bed pseudo-continuous operation is preferred because release of thermal power in moving bed pseudo-continuous operation is more steady and easy to control.}
place = {China}
year = {1991}
month = {Aug}
}