การหาเอกลักษณ์และการควบคุมอุณหภูมิของกระบวนการสร้างลมร้อนจากหัวเผาชีวมวล

Caputo, A. C., Palumbo, M., Pelagagge, P. M., and Scacchia, F. (2005, January). Economics of biomass energy utilization in combustion and gasification plants: effect of logistic variable. Biomass and Bioenergy, 28(1), 35-51.

Yang, Y. B., Sharifi, V. N., and Swithenbank, J. (2004, August). Effect of air flow rate and fuel moisture on the burning behaviours of biomass and simulated municipal solid wastes in packed beds. Fuel, 83(11-12), 1553-1562.

Babu, B. V., and Sheth, P. N. (2004). Modeling and simulation of downdraft biomass gasifier. In Proceedings of International Symposium & 57th Annual Session of IIChE in association with AIChE (CHEMCON-2004). pp. 170-176. Mumbai.

Chum, H. L., and Overend, R. P. (2001, June). Biomass and renewable fuels. Fuel Processing Technology, 71(1-3), 187-195.

Schuster, G., Loffler, G., Weigl, K., and Hofbauer, H. (2001, March). Biomass steam gasification – an extensive parametric modeling study. Bioresource Technology, 77(1), 71-79.

García-Bacaicoa, P., Serrano, S., Berrueco, C., and Ceamanos, J. (2004). Study on the gasification of sewage sludge for power production in a dual fueled engine. In The 2nd World Conf. and Technology Exhibition on Biomass for Energy, Industry and Climate Protection. Roma.

Altafini, C. R., Wander, P. R., and Barreto, R. M. (2003, October). Prediction of the working parameters of a wood waste gasifier through an equilibrium model. Energy Conversion and Management, 44(17), 2763-2777.

Baratieri, M., Baggio, P., Fiori, L., and Grigiante, M. (2008, October). Biomass as an energy source: Thermodynamic constraints on the performance of the conversion process. Bioresource Technology, 99(15), 7063-7073.

Sharma, A. K. (2011, February). Modeling and simulation of a downdraft biomass gasifier 1. Model development and validation. Energy Conversion and Management, 52(2), 1386-1396.

Baruah, D., and Baruah, D. C. (2014, November). Modeling of biomass gasification: A review. Renewable and Sustainable Energy Reviews, 39, 806-815.

Vijay Daniel P., and Sanjeevi Gandhi A. (2017). Design for Modeling and Control of Temperature Process in Downdraft Gasifier System: Simulation Studies. International Journal of Pure and Applied Mathematics, 117(10), 13-17.

Vijay Daniel P., and Sanjeevi Gandhi A. (2017). Design of Mathematical Modelling and Control of Downdraft Biomass Gasifier. International Journal of Control and Automation, 10(11), 175-184.

Sagüés, C., García-Bacaicoa, P., and Serrano, S. (2007, March). Automatic control of biomass gasifiers using fuzzy inference system. Bioresource Technology, 98(4), 845-855.

Prempain, E., Postlethwaite, I., and Sun, X. D. (2000). Robust control of the gasifier using a mixed sensitivity H1 approach. Journal of Systems and Control Engineering, 214(6), 415-427.

Pimparat, T., Tumruangsri, P., and Sandod, S. (2017). Development of Agricultural Residue Biomass Pellet Burner. Engineering Project Report, B.Eng. (Mechanical Engineering). Nakornnayok. Faculty of Engineering, Srinakharinwirot University.

Ramachandran, R. Lakshminarayanan, S., and Rangaiah, G. P. (2005). Process identification using open-loop and closed-loop step responses. Journal of The Institution of Engineers, 6(45), 1-13.

Ziegler, J. G., and Nichols, N.B. (1942). Optimum setting for automatic controllers. Trans. ASME, 64, 759-768.

Arisariyawong., S. (2005, September). PID Controller Tuning with Unknown Mathematical Model. Industrial Technology Review Magazine, 11(142), 92-95.