2024 International Maha Fluid Power Conference

2024 International Maha Fluid Power Conference

River Publishers Series in Proceedings

2024 International Maha Fluid Power Conference

Editors:
Dr. Andrea Vacca, Purdue University
Dr. Lizhi Shang, Purdue University
Dr. Jose Garcia-Bravo, Purdue University

e-ISBN: 9788770047456

Available: September 2024

doi: https://doi.org/10.13052/rp-9788770047456


We are pleased to present the Proceedings for the 2024 International Maha Fluid Power Conference, a event dedicated to sustainable fluid power and motion control technologies and systems. The Maha Fluid Power Conference is one of the most impactful gatherings in the field, bringing together professionals, researchers, and innovators to exchange ideas and showcase the latest research trends. This year's conference features 10 keynote lectures from leading experts representing off-road vehicle OEMs, fluid power system suppliers, universities, and local governments. In addition, there are 58 technical presentations covering a broad spectrum of topics, including novel fluid power components and systems, solutions for system electrification, condition monitoring, noise and vibration, alternative prime movers, tribology, and fluids. Of these presentations, 19 have been submitted as full conference papers, while the remaining contributions are presented as presentations only. This conference proceedings collection includes these 19 full papers, carefully selected based on thorough reviews by the conference's scientific committees and field experts. Each paper was further refined in response to reviewers' feedback. We hope the concepts, methodologies, results, and conclusions presented in this 2024 Maha Fluid Power Conference Proceedings will contribute to advancing fluid power technology for a sustainable future.
Fluid power, Energy efficiency, Sustainable actuation, Noise and vibration, Renewable energy, Robotic, Hydrostatic machine, Tribology, Off-road vehicle, Condition monitoring

Article 3: Efficiency Improvements in a Servoless Swash Plate Pump: Experimental and Simulation Results
by Nathaniel J. Fulbright, Samuel Hall, Matthew Creswick, Stanislav Smolka and Robert Rahmfeld
https://doi.org/10.13052/rp-9788770047456.003


25

Article 4: Empowering Off-Road Diesel Powertrains: Advanced Multivariate Air Handling Control for Electrified Performance
by Shubham Ashta, Nicholas Vang, Weijin Qiu, Chisom Emegoakor, Sree Harsha Rayasam, Tyler Swedes, Jacob Mazanec, Giraldo Luis, Bryan Frushour, Gregory Shaver, Sage Kokjohn, Jaal Ghandhi and David Rothamer
https://doi.org/10.13052/rp-9788770047456.004


16

Article 7: An Innovative Approach for Controlling Fluid Power Systems Using Extended Reality
by Marvin R. Durango, Jose A. Solorio, Gina C. Baquero, Andres Rincon and Jose Garcia-Bravo
https://doi.org/10.13052/rp-9788770047456.007


29

Article 9: Innovative hyper-thin sensor for cartridge valves diagnostics and prognostics
by Massimiliano Ruggeri, Francesco Maita, Luca Maiolo, Mattia Ferri, Christopher Rosi and Sara Baldoni
https://doi.org/10.13052/rp-9788770047456.009


19

Article 11: Electronified Open Circuit Drive Concept for Compact Loaders
by Xiaofan Guo, Shaoyang Qu, Rafael Cardoso, Enrique Busquets
https://doi.org/10.13052/rp-9788770047456.011


25

Article 13: A numerical procedure to reduce the noise emitted by External Gear Pumps
by Emma Frosina, Francesca Pedrielli, Eleonora Carletti, Pietro Marani, Luca Romagnuolo, Adolfo Senatore
https://doi.org/10.13052/rp-9788770047456.013


25

Article 14: CASUAL CONDITION MONITORING FOR AXIAL PISTON PUMPS: PREDICTION OF DIFFERENT FAULTS UNDER VARIABLE OPERATING CONDITIONS
by Svenja Horn, Ahmed Shorbagy, Michael Lenz, Simon Knoll, Morits Winter and Prof. Jürgen Weber
https://doi.org/10.13052/rp-9788770047456.014


26

Article 15: Design Strategy for Noise Reducing Particle Dampers on Hydraulic Pumps
by Michael Lenz, Peter Zuppke, Ahmed Shorbagy, and Prof. Jürgen Weber
https://doi.org/10.13052/rp-9788770047456.015


35

16

Article 17: Enhancing System Performance in Subsea and Off-Highway Applications: A High-Fidelity, Transient Dynamic CFD Analysis Approach
by Vignesh Jeganathan, Rayhan Ahmed, Yawei Chen, Shyam Sundar Pasunurthi, Ashutosh Pandey, Emanuele Gnesi, Raju Kalidindi, Bipin Kashid, Howard Zhang
https://doi.org/10.13052/rp-9788770047456.017


23