Simulate the turbine system for Dong Trieu thermal power plant with Matlab Simulink

Phong Cao Khong; Phuong Mai Thi Phan

Archives

Year 2024

Issue 3 [06 - 2024], Year XXXIII

Simulate the turbine system for Dong Trieu thermal power plant with Matlab Simulink

https://mij.hoimovietnam.vn/en/archives?article=24035

Authors: Phong Cao Khong, Phuong Mai Thi Phan

Affiliations:
Hanoi Hanoi University of Mining and Geology

*Corresponding:
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Keywords: Simulation, Thermal power plant, Energy efficiency, Steam turbine

Received: 24^th-Apr-2024

Revised: 25^th-May-2024

Accepted: 3^rd-June-2024

Online: 30^th-June-2024

Section: Mechanical engineering, Electricity - Electronics - Automation

Pages: 32 - 39

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Downloads: 2

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Abstract:

Improving the energy efficiency of operating thermal power plants has become a crucial strategy for gradually reduce CO2 emissions. The article conducts research on thermodynamic processes in thermal power plants and develops a simulation model for the turbine system. The simulation results show a compatibility between the design and the simulation parameters. The model also shows the ability to simulate the dynamic process of the system when adjusting the plant capacity by adjusting the steam flow

How to Cite

Khong, P.Cao and Phan, P.Mai Thi 2024. Simulate the turbine system for Dong Trieu thermal power plant with Matlab Simulink (in Vietnamese). Mining Industry Journal. XXXIII, 3 (Jun, 2024), 32-39. .

References

1. Bekdemir, Ş., Öztürk, R. and Yumurtac, Z. (2003) ‘Condenser optimization in steam power plant’, Journal of Thermal Science, 12(2), pp. 176–178. doi: 10.1007/s11630-003-0062-4.

2. Chaibakhsh, A. and Ghaffari, A. (2008) ‘Steam tuốc bin model’, Simulation Modelling Practice and Theory. Elsevier B.V., 16(9), pp. 1145–1162. doi: 10.1016/j.simpat.2008.05.017.

3. Haldkar, V. et al. (2013) ‘An Energy Analysis of Condenser’, International Journal of Thermal Technologies, 3(4), pp. 120–125.

4. Hou, D. et al. (2012) ‘Exergy analysis of a thermal power plant using a modeling approach’, Clean Technologies and Environmental Policy, 14(5), pp. 805–813. doi: 10.1007/s10098-011-0447-0.

5. Khaleel, O. J., Basim Ismail, F. and Khalil Ibrahim, T. (2021) ‘Energy and exergy assessment of the Coal-Fired power plant based on the effect of condenser pressure’, Journal of Mechanical Engineering Research and Developments, 44(8), pp. 69–77.

6. Yang, C. et al. (2023) ‘Performance Analysis of a 300 MW Coal-Fired Power Unit during the Transient Processes for Peak Shaving’, Energies, 16(9). doi: 10.3390/en16093727.

7. Zimmer, G. (2008) ‘Modelling and simulation of steam tuốc bin processes: Individual models for individual tasks’, Mathematical and Computer Modelling of Dynamical Systems, 14(6), pp. 469–493. doi:

10.1080/13873950802384001.

8.Zoder, M. et al. (2018) ‘Simulation and exergy analysis of energy conversion processes using a free and open-source framework-Python-based object-oriented programming for gas- and steam tuốc bin cycles’, Energies, 11(10). doi: 10.3390/en11102609