THERMAL SCIENCE

International Scientific Journal

Thermal Science - Online First

Authors of this Paper

External Links

online first only

Design of porous media burner control system based on arm embedded processor

ABSTRACT
Because the traditional porous media burner control system has the problems of low control accuracy and long control time, a porous media burner control system based on ARM embedded processor is designed. The hardware of the system is designed through ARM embedded processor, FPGA data acquisition card, power supply circuit, reset circuit and audible and visual alarm module, and the system software is designed based on it. According to the structure of fuzzy controller, fuzzy control rules, assignment table of fuzzy variables, fuzzy control table and defuzzification, the fuzzy controller is used to fuzzy control the porous media burner. The simulation results show that the designed system has the highest precision and the shortest control time.
KEYWORDS
PAPER SUBMITTED: 2022-02-25
PAPER REVISED: 2022-04-15
PAPER ACCEPTED: 2022-05-26
PUBLISHED ONLINE: 2022-06-04
DOI REFERENCE: https://doi.org/10.2298/TSCI220115080L
REFERENCES
  1. Hu L. J., Tong, A.Y., Liu H. B., et al. Modeling and control of combustion temperature system of circulating fluidized bed boiler
  2. Yu Y. F., Bao J. M., Sheng K. C. Control System Design for Biomass Pellet Burners Based on ARM Processor
  3. Wei J. H., Wang S. J., Jiang H. G., Sun Z. Z., Gong H. Z. Development and application of regenerative burner and its control system
  4. Wang Y. G., Gou C. Q, Li G. H. Air distribution optimization control technology of swirling burner for 350MW supercritical once through boiler
  5. Huang J., Xu X. C., Chen Y. Y., Zhang Q., Zhou M., Li W. W. Design and experimental study of porous media burner system
  6. Babu, L, Mohan, S. V., Mohan, M., & Pradeepkumar, A. P. Highly mature sediments in the tropical monsoonal environment of southwestern India: an appraisal based on weathering indices. Ecofeminism and Climate Change, ahead-of-print(ahead-of-print). 2021, 2(1):69-82.
  7. Wu S. H. Air distribution parameter control and system implementation of aggregate drying pulverized coal burner
  8. Chen J., Wen G., Li Y., et al. Combustion of Low-Concentration Gas in a Porous Media Burner: Reactor Design and Optimization
  9. Bubnovich V., Hernandez H., Toledo M., et al. Experimental investigation of flame stability in the premixed propane-air combustion in two-section porous media burner
  10. Devi S., Sahoo N., Muthukumar P. Effect of combustion zone material on the thermal performance of a biogas-fuelled porous media burner: Experimental studies
  11. Liu Y., Deng Y., Shi J, et al. Pore-level numerical simulation of methane-air combustion in a simplified two-layer porous burner
  12. Song F., Wen Z., Dong Z., et al. Numerical study and optimization of a porous burner with annular heat recirculation
  13. Abdulkarim A H., Ates A., Altinisik K., et al. Internal flow analysis of a porous burner via CFD
  14. Jirakulsomchok K., Pisitsungkakarn S. H. Numerical Study of Performance of a Late Mixing Porous Burner (LMPB) for Combustion of Low-Calorific Synthetic-gas from Biomass Gasification
  15. Mohammadi I., Ajam H. Theoretical study on optimization of porous media burner by the improvement of coefficients of porosity variation equations
  16. He J., Chen Z., Jiang X., et al. Combustion characteristics of blast furnace gas in porous media burner
  17. Chen X., Li J., Zhao D., et al. Effects of porous media on partially premixed combustion and heat transfer in meso-scale burners fuelled with ethanol
  18. Chhabra S., Sehgal S. S. Ignition investigation of porous radiant burner for commercial cooking operations
  19. Habib R., Yadollahi B., Saeed A., et al. Unsteady ultra-lean combustion of methane and biogas in a porous burner - An experimental study
  20. Devi S., Sahoo N., Muthukumar P. Combustion of biogas in Porous Radiant Burner: Low emission combustion
  21. Zheng L., Han X., Yang X., et al. Dimensionless Variation of Seepage in Porous Media with Cracks Stimulated by Low-Frequency Vibration
  22. Alnaimi F., Al-Bazi A., Al-Hadeethi R. H. F. & Singh, D. Application of Intelligent Computational Techniques in Power Plants: A Review
  23. Khudher, F., Hafez, M., Fattah, M. Y., & Samir, M. A Review Study on Optimizing the Performance of Soil Using Nanomaterials. Advances In Industrial Engineering and Management, 2020,9(1):1-10.