Influence of the heat reservoir boundary on the performance of Brownian heat engine

Abstract: In this paper we study the thermodynamic performance of a Brownian heat engine, which is driven by temperature difference. Brownian particles move in a periodic single-barrier sawtooth potential under the action of an external load force, and contact an alternating hot and cold reservoir. The kinetic energy change of the Brownian particles and the heat leak between hot and cold reservoir are considered simultaneously. The dynamics of the Brownian particle is governed by the Smoluchowski equation. The expressio… Show more

“…Thermodynamic cycles are of great importance not only in theory but also in practice. [1][2][3][4][5][6][7][8] The Carnot heat engine is one of the most important models in thermodynamics. [9,10] Generalized Carnot cycles have been widely used in the various fields in physics.…”

Performance characteristics of low-dissipative generalized Carnot cycles with external leakage losses

“…Thermodynamic cycles are of great importance not only in theory but also in practice. [1][2][3][4][5][6][7][8] The Carnot heat engine is one of the most important models in thermodynamics. [9,10] Generalized Carnot cycles have been widely used in the various fields in physics.…”

Performance characteristics of low-dissipative generalized Carnot cycles with external leakage losses