Casi Satrústegui, ÁlvaroAraiz Vega, MiguelCatalán Ros, LeyreAstrain Ulibarrena, David2021-09-032023-02-0520211359-431110.1016/j.applthermaleng.2020.116275https://academica-e.unavarra.es/handle/2454/40401Thermoelectricity, in the form of thermoelectric generators, holds a great potential in waste heat recovery, this potential has been studied and proved in several laboratory and theoretical works. By the means of a thermoelectric generator, part of the energy that normally is wasted in a manufacturing process, can be transformed into electricity, however, implementing this technology in real industries still remains a challenge and on-site tests need to be performed in order to prove the real capabilities of this technology. In this work, a computational model to simulate the behaviour of a thermoelectric generator that harvest waste heat from hot fumes is developed. Using the computational model an optimal configuration for a thermoelectric generator is obtained, also an experimental study of the performance of different heat pipes working as cold side heat exchangers is carried out in order to optimize the performance of the whole thermoelectric generator, thermal resistances of under 0,25 K/W are obtained. The optimized configuration of the thermoelectric generator has been built, installed and tested under real conditions at a rockwool manufacturing plant and experimental data has been obtained during the 30 days field test period. Results show that 4.6 W of average electrical power are produced during the testing period with an efficiency of 2.38%. Moreover, the computational model is validated using this experimental data. Furthermore, the full harvesting potential of an optimized designed that takes advantage of the whole pipe is calculated using the validated computational model, resulting in 30.8 MWh of energy harvested during a sample year which could meet the demand of 8.34 Spanish average households.16 p.application/pdfeng© 2020 Elsevier Ltd. This manuscript version is made available under the CC-BY-NC-ND 4.0Computational modelOn-site experimentationPassive heat-exchangersThermoelectric generatorWaste-heatinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/openAccess