| Abstract | The main reason for seasonal cooling and heating energy consumption is heat transfer through the outer wall,
and and active thermal insulation panel based on thermoelectric elements has been proposed to reduce this. In this study, an Arduino-based dead band control method was applied to manufacture a control module to keep the heat dissipation part
of the panel equal to the indoor air temperature, and the control performance according to the allowable temperture range(±0.
5°C~±0.1°C)was evaluated. As a result, the narrower the allowable range, the higher the control precision, but the lower
stability, and the wider the range, the better the stability, but the larger the deviation. In particular, ±0.2°C and ±0.3°C
conditions were balanced in terms of precision and stability, confirming them as optimal control parameters, and the optimal
driving startegy will be presented by comparing various control methods in the future. |
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