LAPSE:2023.11023
Published Article
LAPSE:2023.11023
Waste Heat Recovery from Air Using Porous Media and Conversion to Electricity
February 27, 2023
Abstract
This paper presents a numerical study of waste heat recovery from a fluid stream using thermoelectric devices. The system consisted of a square section duct with spherical porous media placed in its central region. Hot air circulates continuously through the duct and exchanges energy with the solid matrix and subsequently with the thermoelectric modules. The mathematical model of the system was solved using ANSYS/FLUENT software, requiring the implementation of user-defined functions (UDFs) and user-defined scalars (UDS) regarding porous media and thermoelectric generation modelling. From the simulations carried out, global efficiency and electrical power values were obtained in the range of [0.11−4.51] [%] and [0.01−12.77] [W], respectively. Furthermore, for the set of variables analysed, it was observed that the performance of the system is favoured by an increase in the fluid inlet temperature and speed, as well as by a higher external heat transfer coefficient.
This paper presents a numerical study of waste heat recovery from a fluid stream using thermoelectric devices. The system consisted of a square section duct with spherical porous media placed in its central region. Hot air circulates continuously through the duct and exchanges energy with the solid matrix and subsequently with the thermoelectric modules. The mathematical model of the system was solved using ANSYS/FLUENT software, requiring the implementation of user-defined functions (UDFs) and user-defined scalars (UDS) regarding porous media and thermoelectric generation modelling. From the simulations carried out, global efficiency and electrical power values were obtained in the range of [0.11−4.51] [%] and [0.01−12.77] [W], respectively. Furthermore, for the set of variables analysed, it was observed that the performance of the system is favoured by an increase in the fluid inlet temperature and speed, as well as by a higher external heat transfer coefficient.
Record ID
Keywords
numerical simulation, porous media, thermoelectricity, waste heat recovery
Subject
Suggested Citation
Donoso-García P, Henríquez-Vargas L, Huerta E. Waste Heat Recovery from Air Using Porous Media and Conversion to Electricity. (2023). LAPSE:2023.11023
Author Affiliations
Donoso-García P: Department of Chemical and Bioprocess Engineering, University of Santiago of Chile, Central Station, Santiago 9160000, Chile
Henríquez-Vargas L: Department of Chemical and Bioprocess Engineering, University of Santiago of Chile, Central Station, Santiago 9160000, Chile [ORCID]
Huerta E: Department of Chemical and Bioprocess Engineering, University of Santiago of Chile, Central Station, Santiago 9160000, Chile
Henríquez-Vargas L: Department of Chemical and Bioprocess Engineering, University of Santiago of Chile, Central Station, Santiago 9160000, Chile [ORCID]
Huerta E: Department of Chemical and Bioprocess Engineering, University of Santiago of Chile, Central Station, Santiago 9160000, Chile
Journal Name
Energies
Volume
15
Issue
15
First Page
5597
Year
2022
Publication Date
2022-08-02
ISSN
1996-1073
Version Comments
Original Submission
Other Meta
PII: en15155597, Publication Type: Journal Article
Record Map
Published Article
LAPSE:2023.11023
This Record
External Link
https://doi.org/10.3390/en15155597
Publisher Version
Download
Meta
Record Statistics
Record Views
210
Version History
[v1] (Original Submission)
Feb 27, 2023
Verified by curator on
Feb 27, 2023
This Version Number
v1
Citations
Most Recent
This Version
URL Here
https://psecommunity.org/LAPSE:2023.11023
Record Owner
Auto Uploader for LAPSE
Links to Related Works