Energy Performance of Steam Generation Unit with Using Non-Renewable Fossil Fuel Like Imported (Indonesian) Coal at Spectrum Dyes and Chemicals Private Limited, Palsana-Surat

Ketankumar Thakorbhai Patel1

1

Publication Date: 2024/08/13

Abstract: Now a day’s competition to became power fuel nation is increase industrialization and develop various process or methods for Energy sector. Due to increases energy demand with suitable use of Energy is important for any developing nation. The current case study work is an account of Energetic performance of steam generation unit like Boiler in the Spectrum Dyes and Chemicals Private Limited. The capacity of the Boiler for the steam generation 10 T/Hr. (2 Unit) and 6 T/hr. (1 Unit) coal fired boiler supplied by Rajdeep Boiler, Sachin. After completing the whole 1st law analysis of the Boiler plant has been presented The analysis carried out by using first law for a particular steam generation unit. There are useful assumption is required to analysis during calculations which is introduced in these performance calculations. Microsoft Excel is used for computer programs are developed for performance calculation energetic analysis of a steam generation plant. The PIE chart is graphical represent to energy flow in the system and the losses in the various components during normal operating condition have been identified. The analysis shows that the 1st law efficiency of Boiler Plant with solid Imported (Indonesian) coal fired boiler is 81.43%.

Keywords: Steam Generation Plant, Non-Renewable Fuel, Burning, Energetic Performance Indirect Method, Effective Calculation, PIE Chart.

DOI: https://doi.org/10.38124/ijisrt/IJISRT24JUL1748

PDF: https://ijirst.demo4.arinfotech.co/assets/upload/files/IJISRT24JUL1748.pdf

REFERENCES

  1. Efficient use of Electricity : ‘ Devki Energy Consultant.’
  2. Nag P.K. : ‘Thermodynamics’,1996.
  3. Kerstin J. : ‘A course in thermodynamics’, 1996.
  4. Kotas, T. J. : ‘The energy method of Thermal Plant Analysis,’ Butter Worths, London, 1985.
  5. Dixit D. K. : ‘Impact of Industrial co-generation on energy conversation A case study’, Journal of  the  institution of  Engineering (India), Mechanical Engineering Division, Vol. 72, PP 49 – 52, July 1991.
  6. Parekh A. D. : ‘Energy and Exergy Analysis of  Combined Cycle Power Plant,’ M. E. Thesis, S.V.N.I.T., Surat, India, 1998.
  7. Patel A. D. : ‘Energy and Exergy Analysis of 7 MW Captive Power Plant,’  M. E. Thesis, S.V.N.I.T., Surat, India, 2001.
  8. Panchal C. P. : ‘Energy and Exergy of A Combined Cycle Power Plant,’     M. E. Thesis, S.V.N.I.T., Surat, India, 2003.
  9. Nenad Ferdelji, Antun and Zvonimir: “Exergy analysis of a co-generation Plant,” Thermal Science Vol. 12 (2008), No.4, pp. 75-88.
  10. Manual for Boiler operation and Maintenance by G.N.F.C.
  11. Energy efficiency in Thermal Utilities (Guide Book 2) by B.E.E. (Bureau of Energy Efficiency), www.bee-india.nic.in
  12. Domkundwar Arora: “A course in Power Plant Engineering”, 2006.
  13. Ballaney P.L.: “Thermal Engineering”, 2000.
  14. Kumar D.S.: “Thermal Science and Engineering”, 2007 - 2008.
  15. Chemicalogic steam tab companion, www.chemicalogic.com): Steam table.