Analytical and Numerical Study for the Determination of a Thermoelectric Generator’s Internal Resistance

Kramer, Loise Rissini; Maran, Anderson Luis Oliveira; Souza, Samara Silva de; Ando, Oswaldo Hideo

doi:10.3390/en12163053

Cited by 21 publications

(10 citation statements)

References 28 publications

(37 reference statements)

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“…In addition, has the development of hybrid generation systems for harnessing thermal energy based in energy harvesting [95][96][97][98][99].…”

Section: Discussionmentioning

confidence: 99%

Investigation of the effect temperature on the performance of the photovoltaic solar design for the western Region of Paraná - Brazil

Ando

Becerra-Díaz

2021

DYNA

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This paper show on impact of temperature decrease applied in Building Integrate Photovoltaics (BIPV) dimensioned on a photovoltaic solar tile with a superimposed photovoltaic arrangement model, in conditions of simulation of Standard Test Conditions for 1000 W/m2 irradiation, for maximum and minimum summer temperatures of Foz do Iguaçu city during 2017-2018. The simulation (Comsol Multiphysics®) uses different types for material tiles (concrete, polypropylene and PVC) and compares the system considering the influence of the materials in the civil-structural characteristics of the roof. The results showed that the efficiency behavior with temperature variations, produce a decrease of linear efficiency. While the, tile designs proposal has a 16% efficiency value in the datasheet in the same conditions. The results shows a decrease of efficiency and power with the increase temperature in the same conditions of the study, obtaining the respectively value of 0.05%/°C and 0.24%/°C.

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“…In addition, has the development of hybrid generation systems for harnessing thermal energy based in energy harvesting [95][96][97][98][99].…”

Section: Discussionmentioning

confidence: 99%

Investigation of the effect temperature on the performance of the photovoltaic solar design for the western Region of Paraná - Brazil

Ando

Becerra-Díaz

2021

DYNA

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“…Using as base the modeling of the thermoelectric module presented in [5] that uses: (i) Geometric model developed is a representation of the thermoelectric module model TEHP 1263-1.5, produced by the ThermomamicTM company [33];…”

Section: Modeling and Performance Of Twhrsmentioning

confidence: 99%

“…Based on the model proposed in [5], it is possible to estimate the electric power generation of a thermoelectric generator applied to the exhaust gas system of combustion vehicles.…”

Section: Modeling and Performance Of Twhrsmentioning

confidence: 99%

“…It begins with the state of the art highlighting the research contribution, drawings and schematics of the proposed system. Next, we proceed with modeling the TWHRS using as a basis the numerical model of the thermoelectric module developed in recent research to evaluate its behavior under a set of boundary conditions incorporated into the TWHRS heat transfer system [5][6][7][8][9][10][11].…”

Section: Introductionmentioning

confidence: 99%

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Modelling and simulation of a thermoelectric waste heat recovery system – TWRHS

Marana

Guerrero-Martin

Páez

et al. 2021

DYNA

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The thermoelectric effect allows the direct conversion of thermal energy into electrical energy without the need for moving parts and its applications are endless, with only the availability of a temperature gradient. Combustion vehicles generate energy losses of up to 62% and it is estimated that efficiency with thermoelectric generators can be increased by up to 8%. In this work we propose a system of waste heat from exhaust gases from the thermoelectric effect. A computational model was developed using the finite element method. Based on the simulations, a set of curves of electrical variables can be made as a function of temperature. There is a good correlation between the model and datasheet data. Based on the modeled system, it was possible to evaluate a generation system with the generation of up to 120W with 5.8% efficiency, representing an increase of up to 3% in overall efficiency.

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“…The MPPT technique is considered to be an efficient mechanism to improve the performance of the TEG. To improve the efficiency of the renewable energy system by extracting the maximum power, several MPPT techniques have been applied: artificial neural networks (ANN) [23], fractional open-circuit voltage [6], fuzzy logic control [24], a microcomputer with look-up table [25], perturb and observe method (P&O) [26,27], incremental impedance and incremental conductance method (INC) [28], internal resistance method [29], and the hill climbing (HC) technique [30]. These techniques are widely used because of their simple logic and ease of implementation.…”

Section: Introductionmentioning

confidence: 99%

A Variable Fractional Order Fuzzy Logic Control Based MPPT Technique for Improving Energy Conversion Efficiency of Thermoelectric Power Generator

2020

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Thermoelectric generation technology is considered to be one of the viable methods to convert waste heat energy directly into electricity. The utilization of this technology has been impeded due to low energy conversion efficiency. This paper aims to improve the energy conversion efficiency of the thermoelectric generator (TEG) model with a novel maximum power point tracking (MPPT) technique. A variable fractional order fuzzy logic controller (VFOFLC)-based MPPT technique is proposed in the present work in which the operating point of the TEG is moved quickly towards an optimal position to increase the energy harvesting. The fraction order term α, introduced in the MPPT algorithm, will expand or contract the input domain of the fuzzy logic controller (FLC to shorten the tracking time and maintain a steady-state output around the maximum power point (MPP). The performance of the proposed MPPT technique was verified with the TEG model by simulation using MATLAB /SIMULINK software. Then, the overall performance of the VFOFLC-based MPPT technique was analyzed and compared with Perturb and observe (P&O) and incremental resistance (INR)-based MPPT techniques. The obtained results confirm that the proposed MPPT technique can improve the energy conversion efficiency of the TEG by harvesting the maximum power within a shorter time and maintaining a steady-state output when compared to other techniques.

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Analytical and Numerical Study for the Determination of a Thermoelectric Generator’s Internal Resistance

Cited by 21 publications

References 28 publications

Investigation of the effect temperature on the performance of the photovoltaic solar design for the western Region of Paraná - Brazil

Investigation of the effect temperature on the performance of the photovoltaic solar design for the western Region of Paraná - Brazil

Modelling and simulation of a thermoelectric waste heat recovery system – TWRHS

A Variable Fractional Order Fuzzy Logic Control Based MPPT Technique for Improving Energy Conversion Efficiency of Thermoelectric Power Generator

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