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Year 2018, Issue: 4, 127 - 131, 04.12.2018

Abstract

References

  • Aydoğdu, Ö., Hasırcı, M. G., & Akçay, H. Bir Entegre Et Tesisinde SCADA Tabanlı Endüstriyel Kontrol Uygulaması. In: ELECO. Bejan, C. A., Iacob, M., & Andreescu, G.-D. (2009). SCADA automation system laboratory, elements and applications. Paper presented at the Intelligent Systems and Informatics, 2009. SISY'09. 7th International Symposium on. Bolton, W. (2015). Programmable logic controllers: Newnes. Grady Jr, C. L., Daigger, G. T., Love, N. G., & Filipe, C. D. (2011). Biological wastewater treatment: CRC press. Henze, M., van Loosdrecht, M. C., Ekama, G. A., & Brdjanovic, D. (2008). Biological wastewater treatment: IWA publishing. Li, Y., Tang, C., & Liu, K. (2011). PID parameter self-setting method base on S7–1200 PLC. Paper presented at the Electrical and Control Engineering (ICECE), 2011 International Conference on. Mühendislik, S. (2015). Subaşi (Edirne) Atiksu Aritma Tesisi Kesin Projesi Proje Raporu. Retrieved from Webb, J. W., & Reis, R. A. (2002). Programmable logic controllers: principles and applications: Prentice Hall PTR.

SCADA Assisted Control of Biological Treatment Plants: Subaşi Example

Year 2018, Issue: 4, 127 - 131, 04.12.2018

Abstract

A
disadvantage of collective life is the problem of collective waste. Water is
the most important source of life. The fresh water obtained from the nature is
contaminated and returned to the nature. In bulk settlements, there is a large
amount of waste water. High amounts of waste water can not be cleaned naturally
in a rapid manner. For this reason wastewater treatment facilities have been
established in settlements. Waste water entering these facilities is cleaned by
biological methods and given to nature. The purification is made of
bacteria-based. In the treatment process, the number of bacteria and the amount
of water entering and leaving the water cleaning are measured and process
control is carried out. In this study, control of a wastewater treatment plant
located in Edirne Subaşı was done by PLC. Sensors located in the field are
processed by PLC and data is transferred to SCADA. The equipment was controlled
on the SCADA according to the received data. Level control, oxygen control,
flow control, dosing control are some of these controls. All these inspections
can be carried out on a single center via SCADA.

References

  • Aydoğdu, Ö., Hasırcı, M. G., & Akçay, H. Bir Entegre Et Tesisinde SCADA Tabanlı Endüstriyel Kontrol Uygulaması. In: ELECO. Bejan, C. A., Iacob, M., & Andreescu, G.-D. (2009). SCADA automation system laboratory, elements and applications. Paper presented at the Intelligent Systems and Informatics, 2009. SISY'09. 7th International Symposium on. Bolton, W. (2015). Programmable logic controllers: Newnes. Grady Jr, C. L., Daigger, G. T., Love, N. G., & Filipe, C. D. (2011). Biological wastewater treatment: CRC press. Henze, M., van Loosdrecht, M. C., Ekama, G. A., & Brdjanovic, D. (2008). Biological wastewater treatment: IWA publishing. Li, Y., Tang, C., & Liu, K. (2011). PID parameter self-setting method base on S7–1200 PLC. Paper presented at the Electrical and Control Engineering (ICECE), 2011 International Conference on. Mühendislik, S. (2015). Subaşi (Edirne) Atiksu Aritma Tesisi Kesin Projesi Proje Raporu. Retrieved from Webb, J. W., & Reis, R. A. (2002). Programmable logic controllers: principles and applications: Prentice Hall PTR.
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Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Aydin Gullu

Publication Date December 4, 2018
Published in Issue Year 2018Issue: 4

Cite

APA Gullu, A. (2018). SCADA Assisted Control of Biological Treatment Plants: Subaşi Example. The Eurasia Proceedings of Science Technology Engineering and Mathematics(4), 127-131.