THE VERIFICATION OF THE RSG-GAS REACTOR COOLING TOWER HEAT TRANSFER CAPACITY

Abdul Aziz Rohman Hakim

DOI: http://dx.doi.org/10.17146/jfn.2021.15.1.6341

Sari


The RSG-GAS reactor has been replaced and the technical specifications for the new cooling tower specify that the heat transfer capacity from the secondary cooling water to the environment is 5500 kW per module. Therefore, this study aims to verify the theoretical calculations of the heat transfer capacity using performance test data collected on the 30 MW power operation on December 20, 2018, such as the temperature of the primary and secondary coolant entering and exiting the cooling tower, wet bulb, and environmental dry bulb temperature, as well as the inlet and outlet air temperature. Furthermore, the data were used to calculate the heat transfer capacity from the secondary cooling water to the environment. The results showed that each cell of the RSG-GAS cooling tower reactor transfers the heat of approximately 5528.52 kW. This value is consistent with the technical specifications written in the revised RSG-GAS Safety Analysis Report 11.


Teks Lengkap:

PDF (English)

Referensi


  1. PRSG-BATAN, "Laporan Analisis Keselamatan Rev. 11," Dokumen Keselamatan Operasi Reaktor, vol. 1, pp. I-1, - 2018.
  2. Abdul Aziz R.H., "Tinjauan Keselamatan Operasi Reaktor Terhadap Kinerja Menara Pendingin Setelah 30 Tahun Beroperasi," Reaaktor Buletin Pengelolaan Reaktor Nuklir, vol. XVI, No. 1, pp. 1-21, 2019.
  3. Abdul Aziz R.H., "Tinjauan Keselamatan Operasi Reaktor Serba Guna G. A. Siwabessy Setelah Penggantian Menara Pendingin," Reaaktor Buletin Pengelolaan Reaktor Nuklir, vol. XVII, No. 1, pp. 27-37, 2020.
  4. S. Fisenko, A. Brin, and A. Petruchik, "Evaporative cooling of water in a mechanical draft cooling tower," International Journal of Heat and Mass Transfer, vol. 47, pp. 165-177, 2004.
  5. S. Fisenko and A. Brin, "Simulation of a cross-flow cooling tower performance," International Journal of Heat and Mass Transfer, vol. 50, pp. 3216-3223, 2007.
  6. R. H. Perry, "Perry's Chemical Engineers' Handbook," vol. Seventh pp. 12-14, 1997.
  7. M. Nasrabadi, D. Finn, and B. Costelloe, "Mathematical Modelling of a Low Approach Evaporative Cooling Process for Space Cooling in Buildings," in 10th IIR Gustav Lorentzen Conference, June 25-27 2012, Delft, The Netherlands, 2012.
  8. Abdul Aziz R.H., "Analysis of Heat and Mass Transfer on Cooling Tower Fill," Jurnal Forum Nuklir, vol. 14 No 1, pp. 25-30, 2020.
  9. H. A. S. Donald R. Baker, "A Comprehensive Approach to the Analysis of Cooling Tower Performance," SPX Corporation, vol. TB-R61P13, 2016.
  10. D. Q. Kern, "Process Heat Transfer," Book, 1983.
  11. P. L. Couture, "Thermal-Hydraulic Design of Replacement Cooling Towers for Vermont Yankee Nuclear Power Station," Thesis, vol. -, 2010.
  12. P. HAMON, "COOLING TOWER BATAN (PRSG)," Dokumen Serah Terima, vol. -, pp. -, - 2018.
  13. PRSG-BATAN, "Lembar Data Operasi Reaktor," Dokumen Operasi Reaktor, 2018.


Refbacks

  • Saat ini tidak ada refbacks.


https://baru.fraksigolkar.or.id/