The paper presents an innovative hydraulic power generation system able to enhance performance, reliability and survivability of hydraulic systems used in military jet engines, as well as to allow a valuable power saving. This is obtained by a hydraulic power generation system architecture that uses variable pressure, smart control, emergency power source and suitable health management procedures. A key issue is to obtain all these functions while reducing to a minimum the number of additional components with respect to the conventional hydraulic power generation systems. The paper firstly presents the state-of-art of these systems and their critical issues, outlines the alternative solutions, and then describes architecture, characteristics and performance of the hydraulic power generation system that was eventually defined as a result of a research activity aimed at moving beyond the present state-of-art in this field
A Robust Adaptive Hydraulic Power Generation System for Jet Engines / Jacazio, Giovanni; Mornacchi, Andrea; Ronco, Pierantonio; Sorli, Massimo. - ELETTRONICO. - (2013), pp. 209-223. (Intervento presentato al convegno 13th Scandinavian International Conference on Fluid Power, June 3-5, 2013, Linköping, Sweden tenutosi a Linköping nel 3-5 Giugno 2013).
A Robust Adaptive Hydraulic Power Generation System for Jet Engines
JACAZIO, Giovanni;MORNACCHI, ANDREA;RONCO, PIERANTONIO;SORLI, Massimo
2013
Abstract
The paper presents an innovative hydraulic power generation system able to enhance performance, reliability and survivability of hydraulic systems used in military jet engines, as well as to allow a valuable power saving. This is obtained by a hydraulic power generation system architecture that uses variable pressure, smart control, emergency power source and suitable health management procedures. A key issue is to obtain all these functions while reducing to a minimum the number of additional components with respect to the conventional hydraulic power generation systems. The paper firstly presents the state-of-art of these systems and their critical issues, outlines the alternative solutions, and then describes architecture, characteristics and performance of the hydraulic power generation system that was eventually defined as a result of a research activity aimed at moving beyond the present state-of-art in this fieldFile | Dimensione | Formato | |
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https://hdl.handle.net/11583/2515908
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