Abstract
To improve the measurement precision and the drift of temperature controlling, an intelligent temperature measurement and control system based on microcontroller has been designed. This system is suited for temperature controlling of smelting special steel furnace in the steel mill. It also has functions of the real-time detection, display, and over temperature alarm. The fitting curve and analysis results were obtained based on the actual measured data. Experimental results show that the error between the actual measured data and the fitting calculation data is less than \(0.1\,{}^{\circ }\)C, indicating that the system has good performance.
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References
Lu, L., Gao, Y.: The temperature controlling system based on S3C44B0 (In Chinese). Inf. Microcomput. 5–2, 113–115 (2006)
Ding, Q., Liu, J., Zeng, X., Li, W.: Optimization of casting temperature control system controlled by single chip microcomputer. Spec. Cast. Nonferrous Alloys 38(03), 254–256 (2018)
Li, X., Yao, G.: The temperature controlling technology of high precision. Radio Technol. 1, 35–36 (2005)
Wang, M.: Temperature controlling instrument of heat treatment. Electric Drive Autom. 3, 21–24 (2007)
Chen, J.: The intelligent instrument design of temperature controlling system in resistance furnace and its application. Master Dissertation, Jiangsu University (2007)
Wan, X., Liu, B.: Idea of realizing in solid relay instead of ac contactor based on single chip microcomputer. Digit. Technol. Appl. 4, 24–25 (2013)
Chen, Y., Jiang, H., Zhao, W., et al.: Fabrication and calibration of Pt-10%Rh/Pt thin film thermocouples. Measurement 48, 248–251 (2014)
Gutmacher, D., Foelmli, C., Vollenweider, W., et al.: Comparison of fas sensor technologies for fire gas detection. Proced. Eng. 25, 1121–1124 (2011)
Zhao, J., Feng, H., Xu, Z., et al.: Real-time automatic small target detection using saliency extraction and morphological theory. Opt. Laser Technol. 47, 268–277 (2013)
Huang, Y., Zhu, W., Jiang, H., J, X.: Design of the circuit in a portable tracing instrument based on GPS technology. Int. J. Appl. Innov. Eng. Manag. 1(2), 109–113 (2012)
Huang, Y., Zhu, W., Jiang, X.: A circuit design and its experimental analysis for electromagnetic flowmeter in measurement of sewage. Sens. Transducers 164(2), 36–43 (2014)
Huang, Y., Mo, S., Tang, L.: Design of fishing boat tracing instrument compatible with more navigation system. Fish. Mod. 2(2), 296–297 (2013)
Chen, J.: The common method of fitting for thermocouple temperature calculation formula of fitting. J. Univ. Petrol. 13(5), 73–77 (1989)
Shen, W., Zhang, S.: Thermocouple indexing manual. Stand. Lab. Instrum. Mach. Ind. 59–60 (1983)
Acknowledgements
This paper was supported by the project of Electronic Information Engineering Major in Jiangsu Province (Grant No. 2017GGZY02).
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Huang, Y., Wang, Y., Yu, G. (2019). An Intelligent Temperature Measurement and Control System for the Steel Mill. In: Pan, JS., Lin, JW., Sui, B., Tseng, SP. (eds) Genetic and Evolutionary Computing. ICGEC 2018. Advances in Intelligent Systems and Computing, vol 834. Springer, Singapore. https://doi.org/10.1007/978-981-13-5841-8_10
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DOI: https://doi.org/10.1007/978-981-13-5841-8_10
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