Please use this identifier to cite or link to this item:
|Title:||Computer simulation on reconstruction of 3-D flame temperature distribution|
|Source:||Computational mechanics, 2000, v. 26, no. 5, p. 478-482 How to cite?|
|Abstract:||To measure non-symmetric unsteady three dimensional temperature distribution in flame by simple, economic, fast and accurate means, and to apply a priori information to the measurement both sufficiently and efficiently, we conducted computer simulations. Simulation results proved that finite series-expansion reconstruction method is more suitable for measurement of temperature distribution in flame than transform method which is widely used in medical scanning and nondestructive testing. By comparing errors of simulations with different numbers of views, different domain shapes, different numbers of projections per view, different angles of views and different grid shapes, etc., we find that circle domain, triangular grid and sufficient number of projections per view, can improve the accuracy in the reconstruction of 3-D temperature distribution with limited views. With six views, errors caused by reconstruction computation are reduced, they are smaller than those caused by measurement. Therefore, a comparatively better means of measuring 3-D temperature distribution in flame with limited projection views by emission tomography is achieved. Experimental results also showed that the method we used was appropriate for measurement of 3-D temperature distribution with limited number of views.|
|Appears in Collections:||Journal/Magazine Article|
Show full item record
Checked on Mar 19, 2017
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.