THERMAL SCIENCE

International Scientific Journal

Authors of this Paper

External Links

Bowen Wang

MODELLING AND SIMULATION OF SOLAR THERMAL POWER GENERATION NETWORK

ABSTRACT
In the smart grid context, the article combines SEGS-VI solar thermal power station parameters to establish a solar thermal power generation system model. The thesis is based on the First and Second laws of thermodynamics. It uses the white box model analysis method of the energy system to calculate the solar thermal power generation system-concentrating and collecting subsystem, heat exchange subsystem, and power subsystem to obtain the subsystems dissipation of each process. Finally, the article uses the white box model analysis of the total energy system to treat the subsystems as white boxes, and connects them to form a white box network, makes a reasonable evaluation of the energy consumption status of the total energy system, and finds the weak links in the energy use process of the system. Provide a basis for system energy saving.
KEYWORDS
smart grid, solar thermal power generation, white box model, exergy calculation, exergy dissipation, modelling
PAPER SUBMITTED: 2020-11-06
PAPER REVISED: 2020-12-15
PAPER ACCEPTED: 2021-01-16
PUBLISHED ONLINE: 2021-07-31
DOI REFERENCE: https://doi.org/10.2298/TSCI2104905W
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2021, VOLUME 25, ISSUE Issue 4, PAGES [2905 - 2912]
REFERENCES
  1. Deng, Z., et al., The Emergence of Solar Thermal Utilization: Solar-Driven Steam Generation, Journal of Materials Chemistry A, 15 (2017), 17, pp. 7691-7709
  2. Ranjan, S., et al., Parabolic trough Solar-Thermal-Wind-Diesel Isolated Hybrid Power System: Active Power/Frequency Control Analysis, IET Renewable Power Generation, 12 (2018), 16, pp. 1893-1903
  3. Wu, S., Study and Evaluation of Clustering Algorithm for Solubility and Thermodynamic Data of Glycerol Derivatives, Thermal Science, 23 (2019), 5, pp. 2867-2875
  4. Saleem, M. S., et al., Design and Optimization of Hybrid Solar-Hydrogen Generation System Using TRNSYS, International Journal of Hydrogen Energy, 45 (2020,), 32, pp. 15814-15830
  5. Xu, C., et al., Research Progress on Novel Solar Steam Generation System Based on Black Nanomaterials, The Canadian Journal of Chemical Engineering, 96 (2018), 10, pp. 2086-2099
  6. Choi, K., et al., Influence of Temperature Gradient Induced by Concentrated Solar Thermal Energy on the Power Generation Performance of a Thermoelectric Module, Journal of the Korea Academia-Industrial Cooperation Society, 18 (2017), 10, pp. 777-784
  7. Duan, L., et al., Performance Analysis of a Tower Solar Collector‐Aided Coal‐Fired Power Generation System, Energy Science & Engineering, 5 (2017), 1, pp. 38-50
  8. Wu, S., Construction of Visual 3-D Fabric Reinforced Composite Thermal Perfomance Prediction System, Thermal Science, 23 (2019), 5, pp. 2857-2865
PDF VERSION [DOWNLOAD]
Modelling and simulation of solar thermal power generation network

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence