Application of Exergy Analysis in Flue Gas Condensation Waste Heat Recovery System Evaluation

Flue gas condensation heat recovery technology has a good technical and economic performance in industrial exhaust gas waste heat recovery. Thermal efficiency analysis is the traditional analysis method for the flue gas condensation heat recovery system but it cannot reflect the recovered heat degre...

Full description

Saved in:
Bibliographic Details
Published inEnergies (Basel) Vol. 15; no. 20; p. 7525
Main Authors Zhang, Le, Zhai, Huixing, He, Jiayuan, Yang, Fan, Wang, Suilin
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.10.2022
Subjects
Consumption
Efficiency
Energy
Evaluation
evaluation criteria
evaluation method
Exergy
Exhaust gases
Flue gas
flue gas condensation
Flue gases
Heat
Heat exchangers
Heat recovery
Heat recovery systems
Heat transfer
Humidity
Payback periods
Thermodynamic efficiency
Thermodynamics
Waste heat
waste heat recovery
Water vapor
China
Online AccessGet full text

Cover

More Information
Summary:Flue gas condensation heat recovery technology has a good technical and economic performance in industrial exhaust gas waste heat recovery. Thermal efficiency analysis is the traditional analysis method for the flue gas condensation heat recovery system but it cannot reflect the recovered heat degree. Exergy analysis, which can reflect the recovered energy heat degree, was first applied to the evaluation of a flue gas condensation waste heat recovery system in this paper. The calculation method of wet flue gas exergy is more complex as both a heat and mass transfer is presented. Flue gas waste heat exergy efficiency (EE) and the flue gas waste heat exergy utilization rate (EUR) were proposed as the evaluation indexes for exergy analysis. The exergy analysis method was applied to the comparative evaluation of three recovery schemes in a practical project. The results show that when the water vapor content of wet flue gas is less than 10%, the condensed water exergy can be neglected when calculating EE. The EUR could be used as a comprehensive index for comparing different waste heat recovery schemes, and EE could be used to judge whether the energy grade of heat exchange equipment was seriously decreased. Exergy analysis could effectively make up for the deficiency of thermal efficiency analysis that could not reflect the waste heat grade utilization. Exergy analysis and thermal efficiency analysis are recommended to be used simultaneously to make a more comprehensive analysis and evaluation of the system.
ISSN:1996-1073
1996-1073
DOI:10.3390/en15207525