强大的有序集热机

arXiv - PHYS - Cellular Automata and Lattice Gases Pub Date : 2023-01-16 DOI:arxiv-2301.06591

Fernando S. Filho, Gustavo A. L. Forão, D. M. Busiello, B. Cleuren, Carlos E. Fiore

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引用次数: 0

摘要

我们介绍了一类发动机，其中单元同步运行，可以利用杠杆其性能，并指导运行制度。我们的方法包含了一个最小的设置，由$N$相互作用的装置组成，这些装置与两个热浴池接触，并受到恒定驱动的工作源的影响。同步一致性和最优参数选择之间的相互作用提供了最大的功率和效率，前者和后者能够分别达到Curzon-Ahlborn $\eta_{CA}$(包括大于$\eta_{CA}$)和Carnot $\eta_c$边界。通过现象学模型和接近平衡状态的线性分析处理有序效应，捕获了系统的主要特征。目前的框架为建立基于有序结构的有前途的非平衡热机铺平了道路。

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Powerful ordered collective heat engines

We introduce a class of engines whereby units operating synchronously can be harnessed for levering its performance and also guiding the regime of operation. Our approach encompasses a minimal setup composed of $N$ interacting unities placed in contact with two thermal baths and subjected to a constant driving worksource. The interplay between synchronized unities and optimal parameter choices provide maximal power and efficiency, the former and latter being able to reach Curzon-Ahlborn $\eta_{CA}$ (including greater than $\eta_{CA}$) and Carnot $\eta_c$ bounds, respectively. The main system features are captured by treating ordered effects through a phenomenological model and a linear analysis near the equilibrium regime. The present framework paves the way for the building of promising nonequilibrium thermal machines based on ordered structures.

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arXiv - PHYS - Cellular Automata and Lattice Gases

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