Abstract
A full-spectrum k-distribution (FSK) look-up table has been constructed for gas mixtures within a certain range of thermodynamic states for three species, i.e., CO2, H2O and CO. The k-distribution of a mixture is assembled directly from the summation of the linear absorption coefficients of three species. The systematic approach to generate the table, including the generation of the pressure-based absorption coefficient and the generation of the k-distribution, is discussed. To efficiently obtain accurate k-values for arbitrary thermodynamic states from tabulated values, a 6-D linear interpolation method is employed. A large number of radiative heat transfer calculations have been carried out to test the accuracy of the FSK look-up table. Results show that, using the FSK look-up table can provide excellent accuracy compared to the exact results. Without the time-consuming process of assembling k-distribution from individual species plus mixing, using the FSK look-up table can save considerable computational cost. To evaluate the accuracy as well as the efficiency of the FSK look-up table, radiative heat transfer via a scaled Sandia D Flame is calculated to compare the CPU execution time using the FSK method based on the narrow-band database, correlations, and the look-up table. Results show that the FSK look-up table can provide a computationally cheap alternative without much sacrifice in accuracy.
Original language | English |
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Pages (from-to) | 46-56 |
Number of pages | 11 |
Journal | Journal of Quantitative Spectroscopy and Radiative Transfer |
Volume | 168 |
DOIs | |
State | Published - Jan 1 2016 |
Externally published | Yes |
Funding
This work was supported by the NSF/DOE Collaborative Research Award No. 1258635. The first author acknowledges sponsorship by the China Scholarship Council.
Funders | Funder number |
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National Science Foundation | |
U.S. Department of Energy | 1258635 |
China Scholarship Council |
Keywords
- Accuracy
- Efficiency
- Full-spectrum k-distribution
- Look-up table
- Radiative heat transfer