Digital pumps in speed-controlled systems – an energy study for a loader crane application

Proceedings of the Future Technologies Conference (FTC) 2022. Volume 2. Future Technologies Conference (7th : 2022 : Vancouver, B.C.; Online) Pub Date : 2020-06-25 DOI:10.25368/2020.71

Samuel Kärnel, Amy Rankka, A. D. Amico, Liselott Ericson

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引用次数: 3

Abstract

Imagine a system with a pump driven by a speed-controlled electric motor. What and how much can be gained by using a pump with discretely variable displacement instead of a conventional fixed pump in such a system? This question is the focus in this paper, in which a simulation study based on a drive cycle for a loader crane is presented. The results indicate that the system efficiency from inverter input to pump output can increase by a few percentages. This might be considered small in relation to the increasing complexity that comes with discrete displacement. However, the results also show that a system with discrete displacement substantially reduces torque and cooling requirements on the electric motor. The required maximum torque can be reduced by 30 to 50 % and the motor can generate up to 40 % less heat since it can work in more efficient conditions. These potential benefits will be obtained with only a few discrete displacement settings available.

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速度控制系统中的数字泵-装载机起重机应用的能量研究

想象一个系统，有一个由速度控制的电动机驱动的泵。在这样的系统中，使用离散变量泵代替传统的固定泵，可以获得什么和多少好处?本文以装载机起重机为研究对象，对其驱动周期进行了仿真研究。结果表明，从逆变器输入到泵输出，系统效率可以提高几个百分点。与离散位移带来的日益增加的复杂性相比，这可能被认为是很小的。然而，结果也表明，离散位移系统大大降低了电机的扭矩和冷却要求。所需的最大扭矩可以减少30至50%，电机可以产生多达40%的热量，因为它可以在更有效的条件下工作。这些潜在的优势只需要几个离散位移设置即可获得。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Future Technologies Conference (FTC) 2022. Volume 2. Future Technologies Conference (7th : 2022 : Vancouver, B.C.; Online)

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