05171nam 2201213z- 450 9910619470803321202210253-0365-5353-3(CKB)5670000000391566(oapen)https://directory.doabooks.org/handle/20.500.12854/93225(oapen)doab93225(EXLCZ)99567000000039156620202210d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvances in Fluid Power SystemsMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (262 p.)3-0365-5354-1 The main purpose of this Special Issue of "Advances in Fluid Power Systems" was to present new scientific work in the field of fluid power systems for hydraulic and pneumatic control of machines and devices used in various industries. Advances in fluid power systems are leading to the creation of new smart devices that can replace tried-and-true solutions from the past. The development work of authors from various research centres has been published. This Special Issue focuses on recent advances and smart solutions for fluid power systems in a wide range of topics, including: • Fluid power for IoT and Industry 4.0: smart fluid power technology, wireless 5G connectivity in fluid power, smart components, and sensors.• Fluid power in the renewable energy sector: hydraulic drivetrains for wind power and for wave and marine current power, and hydraulic systems for solar power. • Hybrid fluid power: hybrid transmissions, energy recovery and accumulation, and energy efficiency of hybrid drives.• Industrial and mobile fluid power: industrial fluid power solutions, mobile fluid power solutions, eand nergy efficiency solutions for fluid power systems.• Environmental aspects of fluid power: hydraulic water control technology, noise and vibration of fluid power components, safety, reliability, fault analysis, and diagnosis of fluid power systems.• Fluid power and mechatronic systems: servo-drive control systems, fluid power drives in manipulators and robots, and fluid power in autonomous solutions.History of engineering and technologybicsscMechanical engineering and materialsbicsscTechnology: general issuesbicsscactual working volumeaggressive drivingair expansionCFD analysisCFD calculationcontrol system designcontrol systemsdelayed neutron precursor driftingdirectional control valvedisturbance observerdriver behavioreffective absorbencyelectronic oxygen regulator (EOR)failure analysisflight dynamicsflow resistancefluid powerfluid power systemsFMEAfrequency domain analysisguided missilegyroscope systemheat transferhybrid electric vehiclehybrid systemshydraulic motorinternal channels in motork pressure lossesKalman filterload regulationLQR controlmatrix FMEAmechanical efficiencymechanical sealmechatronicsmolten salt reactor plantn/anoise reductionnon-contacting face sealnonlinear dynamic modelnormal and accident conditionsoiloptimal regulatorparticle swarm optimizationpneumaticspoppet valvepressure controlpressure efficiencypressure loss reductionquadcopterrisk analysissatellite motorsensitivitysensitivity functionsimulationsmall module dual fluid reactorSPL measurementtheoretical working volumethermal analysistransient characteristics analysisuncertainty and sensitivity analysisuncertainty-based optimizationvane pumpvolumetric efficiencywaterHistory of engineering and technologyMechanical engineering and materialsTechnology: general issuesDindorf Ryszardedt1319292Takosoglu JakubedtWos PiotredtDindorf RyszardothTakosoglu JakubothWos PiotrothBOOK9910619470803321Advances in Fluid Power Systems3033706UNINA