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引用次数: 0
摘要
本文探讨的问题是如何确定啤酒杯的最佳形状,以便在液体消耗时最大限度地减少热量传递,从而尽可能长时间地保持其低温状态。所提出的解决方案避免了使用隔热材料。玻璃杯被模拟为由光滑曲线 S 生成的旋转体,由旋转表面热阻可忽略不计但底部隔热的材料制成。描述该问题的超常微分方程是由热力学第一定律导出的,该定律适用于包含液体的控制体积。这是一个逆向优化问题,旨在找到使传热率最小的玻璃形状(用曲线 S 表示)。相比之下,直接问题旨在确定给定几何形状的传热率。得到的解是解析的,S 的表达式是闭合的,从而提供了一系列最佳玻璃形状,可以用传统方法制造。
Optimizing Beer Glass Shapes to Minimize Heat Transfer During Consumption
This paper addresses the problem of determining the optimum shape for a beer
glass that minimizes the heat transfer while the liquid is consumed, thereby
keeping it cold for as long as possible. The proposed solution avoids the use
of insulating materials. The glass is modelled as a body of revolution
generated by a smooth curve S, constructed from a material with negligible
thermal resistance at the revolution surface but insulated at the bottom. The
ordinary differential equation describing the problem is derived from the first
law of Thermodynamics applied to a control volume encompassing the liquid. This
is an inverse optimization problem, aiming to find the shape of the glass
(represented by curve S) that minimizes the heat transfer rate. In contrast,
the direct problem aims to determine the heat transfer rate for a given
geometry. The solution obtained is analytic, and the resulting expression for S
is in closed form, providing a family of optimal glass shapes that can be
manufactured using conventional methods.
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