CFD ANALYSIS OF 210 MW BOILER’S ECONOMISER FOR DETECTING AREA AND CAUSES OF TUBE FAILURE, 1-8.

Chandrakishor L. Ladekar, Manoj R. Dahake, Chandrakant B. Kothare, and Ajay V. Kolhe

References

  1. [1] Monthly statistic report. (New Delhi: Deputy Director Ministryof Coal, Government of India, Dec. 2022).
  2. [2] Review of performance of thermal power station 2016–17.(New Delhi: Government of India Ministry of Power CentralElectricity Authority, 2016).
  3. [3] S. Shahul Hamid, D. Najumnissa Jamal, and M.S. MurshithaShajahan, Automatic detection and analysis of boiler tubeleakage system, International Journal of Computer Application,84(16), 2013, 19–23, doi: 10.5120/14660-2933.
  4. [4] N.S. Drastiwati, H. Zakiyya, F.Y. Utama, and W.D. Kurniawan,Preliminary study of failure analysis on tube material boilerbased on pressure aspect, Proc. IOP Conf. Series: MaterialsScience and Engineering, 288. Bandung, 2018, 12110, doi:10.1088/1757-899X/288/1/012110.
  5. [5] H.A. Mrope, Y. Abeid, C. Jande, and T.T. Kivevele, A reviewon computational fluid dynamics applications in the design andoptimization of crossflow hydro turbines, Journal of RenewableEnergy, 2021, 2021, 5570848.
  6. [6] A.N. Ingale, V.C. Pathade, and V.H. Tatwawadi, CFD analysisof superheater given boiler tube leakage, International Journalof Engineering and Innovative Technology, 1(3), 2012, 29–31.
  7. [7] V.T. Sathyanathan and K.P. Mohammad, Prediction ofunburnt carbon in tangentially fired boiler using Indian coals,Fuel, 83(16), 2004, 2217–2227.
  8. [8] C.A. Erickson, Coal pipe erosion predictions using two phase7flow CFD, Proc. American Society of Mechanical Engineers,Pressure Vessels and Piping Division, San Diego, CA, 1998,263–270.
  9. [9] P.J. Stopford, Recent applications of CFD modelling inthe power generation and combustion industries, AppliedMathematical Modelling, 26(2), 2002, 351–374.
  10. [10] A. Mann, T. Dixon, F. Plaza, and J. Joyce, Opportunities forimproving the performance and reducing the costs of bagasse-fired boilers, Proc. Int. Society of Sugar Cane Technologists ofthe XXV Congress, Antigua Guatemala, GT, 2005, 241–247.
  11. [11] G.K. Gupta and S. Chattopadhyaya, Critical failure analysisof superheater tubes of coal-based boiler, Strojniski Vest-nik/Journal of Mechanical Engineering, 63(5), 2017, 287–299,doi: 10.5545/sv-jme.2016.4188.
  12. [12] E.D.T. Durga Prasad, K. Kiran Kumar, and A. Santosh, CFDanalysis on various finned tube heat exchanger; Ph.D. Thesis,Andhra University, Visakhapatnam, India, 2018.
  13. [13] T.C. Mohankumar and Thomachan, CFD studies on multi leadrifled [MLR] boiler tubes, International Journal of EngineeringResearch and Applications, 3(5), 2013, 24–26.
  14. [14] P.A. Bendekar, P.M. Kumar, and P.S. Poojari, Analysis ofeconomizer using the CFD tool, Proc. 3rd Int. Conf. on RecentTrends in Engineering Science and Management, Bundi, 2016,694–700.
  15. [15] K. Sainath, M. Salahuddin, M. Shafi, and T.K.K. Reddy,Comparative study of economiser using the CFD analysis,International Journal of Modern Engineering Research, 4(4),2014, 1–6.
  16. [16] C.R. Babu, P. Kumar, S. Roy, and D. Kanungo, CFDanalysis of an economizer for heat transfer enhancementusing serrated finned tube equipped with variable finsegments, Materialstoday Proceeding, 45, 2020, 222–230, doi:10.1016/j.matpr.2020.10.422.
  17. [17] A. Thirupathaiah, Modelling and computational fluid dynamicsanalysis of economizer in tangential fired tube boiler,International Journal of Innovative Technology and Research,6(6), 2018, 8886–8890.
  18. [18] K.P. Mudafale and H.S. Farkade, CFD analysis of economizerin a tengential fired boiler, International Journal ofMechanical and Industrial Engineering, 3(2), 2013, 143–147,doi: 10.47893/ijmie.2013.1144.

Important Links:

Go Back