2022
DOI: 10.3390/en15031228
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Electro-Hydraulic Variable-Speed Drive Networks—Idea, Perspectives, and Energy Saving Potentials

Abstract: Electro-hydraulic differential cylinder drives with variable-speed displacement units as their central transmission element are subject to an increasing focus in both industry and academia. A main reason is the potential for substantial efficiency increases due to avoidance of throttling of the main flows. Research contributions have mainly been focusing on appropriate compensation of volume asymmetry and the development of standalone self-contained and compact solutions, with all necessary functions onboard. … Show more

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Cited by 12 publications
(10 citation statements)
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“…Regarding the A2FM, the measured flow losses account for both cross-port leakage flow and drain flows. It is assumed that the flow losses are evenly distributed in the reference measurements and that these can be scaled to relevant displacement unit sizes using scaling laws [2,10]. The scaling of the EMS1 assumes that the efficiency map is invariant with respect to the motor size i.e., that any motor has the same efficiency map as the reference EMS1-20, with the axes scaled to the max.…”
Section: Loss Models Used In Case Studiesmentioning
confidence: 99%
See 1 more Smart Citation
“…Regarding the A2FM, the measured flow losses account for both cross-port leakage flow and drain flows. It is assumed that the flow losses are evenly distributed in the reference measurements and that these can be scaled to relevant displacement unit sizes using scaling laws [2,10]. The scaling of the EMS1 assumes that the efficiency map is invariant with respect to the motor size i.e., that any motor has the same efficiency map as the reference EMS1-20, with the axes scaled to the max.…”
Section: Loss Models Used In Case Studiesmentioning
confidence: 99%
“…Even though many hydraulic systems contain more than a single cylinder, limited attention has so far been given to dedicated multi-axis electro-hydraulic drives. This field has, however, begun to emerge in the last few years ranging from solutions combining displacement units in variable-speed and/or displacement-controlled cylinders with valve-controlled cylinders in a mix [6,7] to more disruptive drive design approaches such as the so-called HHEA [8,9] and so-called electro-hydraulic variable-speed drive networks [10][11][12]. The latter approach generally contains a tremendous amount of possible drive architectures, with this number increasing exponentially with the number of cylinders (or motors) in a system.…”
Section: Introductionmentioning
confidence: 99%
“…Another alternative for electric-powered hydraulic systems is presented in [17]. Here the discussion revolves around controlling two cylinders with multiple fixed pumps connected to different chambers of the actuators and powered by variable-speed electric motors, a system denominated as an electro-hydraulic variable-speed drive network.…”
Section: Current Research On Electrified Systemsmentioning
confidence: 99%
“…In [4] Schmidt and Hansen introduce the concept of multi-cylinder/motor drives connection as a variable-speed drive network. Electrical and hydraulic interconnected variable-speed displacement units allow for the complete avoidance of throttle elements, while also for the sharing of auxiliary functions and fluid reservoirs, as well as hydraulic and electric power.…”
Section: Of 28mentioning
confidence: 99%