Academic Journal of Energy, 2021, 2(4); doi: 10.38007/RE.2021.020406.
Aomar Charum
Indira Gandhi Delhi Technical University for Women, India
Under the constraints of the dual goals of energy saving and consumption reduction and emission reduction, the rational use of renewable energy can not only be used as an external energy saving measure in energy saving technology, but also can achieve the effect of emission reduction. The main purpose of this paper is to study the thermal characteristics and integration mechanism of complementary power plants between solar and coal-fired units based on ITI technology. Based on the traditional thermal system evaluation method, according to the characteristics of the complementary system and the exergy analysis method, this paper establishes a system evaluation model of the coal-fired complementary system, and evaluates the two complementary systems from two aspects of thermal efficiency growth rate and exergy efficiency growth rate. In this paper, the calculated value of each state point in the complementary system is compared with the parameters in the actual electric field to verify the rationality of the system calculation. The system is selected for comparison at 80%, 65% and 50% of unit load. The error from the actual value is within a reasonable range.
Infrared Thermal Imaging, Solar Energy, Coal-Fired Units, Complementary Power Plants, Integration Mechanisms
Aomar Charum. Thermal Characteristics and Integration Mechanism of Infrared Thermal Imaging (ITI) Solar and Coal-fired Complementary Power Stations. Academic Journal of Energy (2021), Vol. 2, Issue 4: 44-53. https://doi.org/10.38007/RE.2021.020406.
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