1 |
Singer, J. G., 1981, Combustion-Fossil Power Systems, 3rd Ed., Combustion Engineering Inc., pp. 22-31
|
2 |
Jeong, H., Rhee, K. N., Ryu, S. R., Yeo, M. S. and Kim, K. W., 2007, A study on the strategy of noise prevention by cavitation for radiant floor heating (ondol) system, Architecture and urban research information center, Vol. 1, pp. 14-22
|
3 |
Basu, P., Kefa, C. and Jestin, L., 2000, Boiler and Burners, Springer, New York, pp. 269-301
|
4 |
Smoot, L. D., 1993, Fundamentals of coal combustion for clean and efficient use, Elsevier, New York, pp. 29-31
|
5 |
Messey, S., Williamson, P. S. and Chuter, R. J., Modelling exhaust systems using one -dimensional methods, 2002, SAE 2002 world congress
|
6 |
Yin, C., Rosendahl L. and Condra, T. J., 2003, Further study of the gas temperature deviation in large-scale tangentially coalired boilers, Fuel, Vol. 82, pp. 1127-1137
DOI
ScienceOn
|
7 |
Blisset, M. and Austin, K. A., 2008, Comparison between an analytical solution and FLOWMASTER II for steady compressible flow in a passage, FLOWMASTER INTERNATIONAL Technical Paper
|
8 |
Klingebiel, F. and Kahlstorf, U., 2000, Simulating engine lubrication systems with 1-D fluid flow models, SAE 2000 world congress
|
9 |
Xu, L., Khan, J. A. and Chen, Z., 2000, Thermal load deviation model for super-heater and reheater of a utility boiler, Applied thermal engineering, Vol. 20, pp. 545-558
DOI
ScienceOn
|
10 |
Yin, C., Caillat, S., Harion, J. L., Baudoin, B. and Perez, E., 2002, Investigation of the flow, combustion, heat-transfer and emissions from a 609MW utility tangentially fired pulverized-coal boiler, Fuel, Vol. 81, pp. 997-1006
DOI
ScienceOn
|