Marthen, Paloborang and Darmawang, Darmawang and Moh, Ahsan and Syafiuddin, Parenrengi (2020) Performance Investigation of Steam Boiler of PLTU Tello Makassar Using Energy – Exergy and Entropy Balance Approach. International Review of Electrical Engineering (I.R.E.E.), 15 (5). pp. 431-432. ISSN 1827- 6660
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4. Performance Investigation of Steam Boiler.pdf Download (1MB) |
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Text (Peer Review)
Peer Review Jurnal Internasional-Performance Investigation of Steam Boiler of PLTU Tello Makassar Us.pdf Download (1MB) |
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3. IREE_Vol_15_N_5_2020_Turnitin (1).pdf Download (547kB) |
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3. Kores_IREE_Vol. 15_5_2020_Communicator_Editor.pdf Download (555kB) |
Abstract
This work aims to investigate the performance of the boiler of a power plant in Tello Makassar. The boiler has generated an electricity power of 50 MW in order to fulfil the electricity needed by people in Makassar city. Performance investigation of the steam generator is very important due to the operation of the boiler is a long time since 1971. The methodology in this study uses energy and exergy analysis as well as the entropy generation approach. The methodology will be applied in all the boiler components, namely Combustion Chamber, evaporator, superheater IA, superheater IB, superheater II, air heater I, economizer, and air heater II. The result shows a significant decrease in the efficiency of energy and exergy for superheater II of 28.98% and 21.28% respectively. The performance of superheater I and air heater II shows energy efficiency above 90%, while the exergy efficiency is lower than 50% for both components. The economizer has been in the middle performance by placed the efficiency of energy and exergy in 64.48% and 48.35% respectively. In general, boiler components are working very well by the reach an energy efficiency of 90% on average. However, by applications, the exergy analysis of the performances of the components does not reach 50%. The result of the study also shows that the energy and exergy efficiency of the boiler are 41.96% and 29.36% respectively. Meanwhile, the heat inducted to the steam turbine is 35.98 MW and 15.12 MW by energy and exergy analysis when the plant has been working on 10.3 MW of a load
| Item Type: | Article |
|---|---|
| Subjects: | FAKULTAS TEKNIK FAKULTAS TEKNIK > Pendidikan Teknik Otomotif KARYA ILMIAH DOSEN Universitas Negeri Makassar > KARYA ILMIAH DOSEN |
| Divisions: | FAKULTAS TEKNIK |
| Depositing User: | Mardiana Mardiana |
| Date Deposited: | 26 Jun 2023 01:39 |
| Last Modified: | 28 Jun 2023 00:37 |
| URI: | http://eprints.unm.ac.id/id/eprint/31803 |
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