Optimización de los filtros de flujo lateral de agua de purga en el sistema de agua de enfriamiento

  • Amir Hossein Beigi Sharif University of Technology
  • Ali Mousavi Sharif University of Technology
  • Hani Sadr Hosseini Sharif University of Technology
Palabras clave: Continuous oily contaminant (COC), Potential oily contaminant (POC), Total dissolved solids (TDS), Total solid substances (TSS), Reverse Osmosis system, Side stream filter

Resumen

Cooling towers are the main parameters for oil and gas industries. The water that circulates the system will pass through heat exchangers and surface condenser of compressor. Cooling towers operate outside; there is a high chance of debris entering the system and water via wind which therefore could lead to fouling, scaling and corrosion. In order for cooling towers to perform at high efficiency, the water has to be clean. Filtration package are the key for solving this matter. In this thesis, a new filtration package for Marjan petrochemical company has been proposed. In this design the blow down water of the cooling tower will be filtered via first a side stream filtration unit which will decrease the TSS of the water and then enters a Reverse Osmosis package which will reduce the TDS of the water. From the Hysys simulation, it has been proven that this system will produce 63 m3/hr pure water and 37 m3/hr brain water. The compositions of these water are 97% pure water and 3% debris, 96% debris and 4% water respectively. This showed that the filtration package decreased the TDS of the water to 4 ppm which is the specification of the make-up water of cooling tower. Financially, when there is no package installed, Marjan has to send COC and POC waters to Mobin Company for filtrations and then buy the RO water.

Biografía del autor/a

Amir Hossein Beigi, Sharif University of Technology

Master of Science, Mechanical Engineering, Energy conversion, Sharif University of Technology, International Campus, Kish Island, Iran

Ali Mousavi, Sharif University of Technology

Department of Engineering and Science, Sharif University of Technology- International Campus, Kish Island, Iran

Hani Sadr Hosseini, Sharif University of Technology

Department of Engineering and Science, Sharif University of Technology- International Campus, Kish Island, Iran

Citas

Araner. COOLING TOWER: TYPES, WORK PROCESS AND INDUSTRIAL APPLICATION. (2019). [Blog] Araner.
https://www.araner.com/blog/cooling-tower/

Allianceforwaterefficiency.org. (2019). Cooling Tower Introduction.

Duan, X., Williamson, J., McMordie Stough, K. and Boyd, B. (2012). Side Stream Filtration for Cooling Towers. 2nd ed. [ebook] Washington: Federal Energy Management Program U.S. Department of Energy, pp.1-30.

Bibi, K. (2019). CHOOSING THE RIGHT COOLING TOWER FILTRATION SYSTEM. [online] Evoqua.com.

Duan, X., Williamson, J., McMordie Stough, K. and Boyd, B. (2012). Side Stream Filtration for Cooling Towers. 2nd ed. [ebook] Washington: Federal Energy Management Program U.S. Department of Energy, pp.1-30.

JOUR Huichao, Zhang Lei, Fang, Hao, Guang, Ying, Niu, (2009), Review on Water Distribution of Cooling Tower in Power Station, IOP Conference Series: Earth and Environmental Science, pp. 1-10.

Kulkarni, S. and Goswami, A. (2015). Studies and Experimentation on Cooling Towers: A Review. IRJET, 2(5), pp.1-4.

John A.Dutton. (2018). Peng-Robinson EOS (1976). Phase Relation in Reservoir Engineering. PNG 520. pp. 1.
Publicado
2020-12-01
Cómo citar
Hossein Beigi, A., Mousavi, A., & Sadr Hosseini, H. (2020). Optimización de los filtros de flujo lateral de agua de purga en el sistema de agua de enfriamiento. Revista Innovaciencia, 8(1), 1-7. https://doi.org/10.15649/2346075X.1002
Sección
Artículo de investigación científica y tecnológica