Modeling and performance analysis of a two-stage thermoelectric energy harvesting system from blast furnace slag water waste heat

Modeling and performance analysis of a two-stage thermoelectric energy harvesting system from blast furnace slag water waste heat

A physical and numerical model of two-stage thermoelectric energy harvesting system driven by blast furnace slag water waste heat is established. The performance of the system with counter-flow type heat exchangers is investigated by numerical simulation. In the case of the temperatures of heat rese...

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Bibliographic Details
Published in:Energy (Oxford) Vol. 77; pp. 562 - 569
Main Authors: Xiong, Bing, Chen, Lingen, Meng, Fankai, Sun, Fengrui
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-12-2014
Elsevier
Subjects:
Applied sciences
Blast furnace slag water
Blast furnace slags
Energy
Energy harvesting
Energy. Thermal use of fuels
Exact sciences and technology
Inlet temperature
Mathematical models
Maximum power
Optimization
Rational use of energy: conservation and recovery of energy
Thermoelectricity
Two-stage thermoelectric generator
Variable-temperature heat reservoirs
Waste heat
Waste heat recovery
Blast furnace slag water
Waste heat recovery
Two-stage thermoelectric generator
Variable-temperature heat reservoirs
Water
Blast furnace
Numerical simulation
Waste heat
Thermoelectric generator
Blast furnace slag
Modeling
Heat recovery
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Summary:A physical and numerical model of two-stage thermoelectric energy harvesting system driven by blast furnace slag water waste heat is established. The performance of the system with counter-flow type heat exchangers is investigated by numerical simulation. In the case of the temperatures of heat reservoirs change over flow passage, the effects of inlet temperature of flushing slag water, convective heat transfer coefficient and flow passage length on the power output, efficiency, maximum power output and maximum efficiency as well as optimal resistance ratio of the system are analyzed. Moreover, the electrical current range corresponding to the maximum power output and maximum efficiency is obtained. Simulation results show that the maximum power output of 0.44 kW and maximum efficiency of 2.66% are available with inlet temperature of blast furnace slag water at 100 °C if load resistance is matched. The optimal resistance ratio corresponding to the maximum power output is about 1.13. •Two-stage thermoelectric energy harvesting system driven by blast furnace slag water waste heat is established.•Effects of some design parameters on the performance of the system are analyzed.•Maximum power of 0.44 kW and maximum efficiency of 2.66% are available with temperature of blast furnace slag water at 100 °C.
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ISSN:0360-5442
DOI:10.1016/j.energy.2014.09.037