Research on high-pressure hose with repairing fitting and influence on energy parameter of the hydraulic drive

Current issue Online first Archive About the Journal Aims and scope Editorial Office Editorial Board Publishing procedure Peer review rules Principles of ethics APC Content Information for Authors

Search for Author, Title, Keyword

SEARCH

Current issue

Online first

Archive

Information for Authors

Current issue

Online first

Archive

About the Journal Aims and scope Editorial Office Editorial Board Publishing procedure Peer review rules Principles of ethics APC Content

Information for Authors

RESEARCH PAPER

Research on high-pressure hose with repairing fitting and influence on energy parameter of the hydraulic drive

Mykola Karpenko ¹

,

Olegas Prentkovskis ¹

,

Šarūnas Šukevičius ¹

1

Vilnius Gediminas Technical University, Department of Mobile Machinery and Railway Transport, Plytinės st. 27, LT-10105, Vilnius, Lithuania

Publication date: 2022-03-31

Eksploatacja i Niezawodność – Maintenance and Reliability 2022;24(1):25-32

DOI: https://doi.org/10.17531/ein.2022.1.4

References (44) Citations (27)

HIGHLIGHTS

High-pressure hoses and junctions failure influence to flow parameters were analyzed.
Comparative analysis between non-repaired and repaired high-pressure hoses were performed.
Numerical simulations (CFD) and experimental measurement applied in the research.
Pressure drops and flow coefficients at non-repaired and after maintenance hose was obtained.
Research find the insignificant power losses in repaired hose compared to standard hose.

KEYWORDS

high-pressure hose

numerical modeling

hydraulic system

ABSTRACT

Reliability and maintenance analysis of transport machines hydraulic drives, basically focused to power units: pumps, cylinders etc., without taking in to account junction elements. Therefore, this paper proposes a research analysis on high-pressure hoses and junctions during technical maintenance. Comparative analysis of fluid behavior and energy efficiency inside non-repaired and repaired high-pressure hoses is presented in this research. Theoretical and experimental research results for hydraulic processes inside high-pressure hose is based on the numerical simulations using Navier–Stokes equations and experimental measurement of fluid flow pressure inside high-pressure hoses. Research of fluid flow dynamics in the hydraulic system was made with main assumptions: system flow rate in the range from 5 to 100 l/min, diameter of the hoses and repairing fitting are 3/8". The pressure drops, power losses, flow coefficients at non-repaired and after maintenance hose was obtained as a result. Simulation results were verified by running physical experiments to measure the pressure losses.

REFERENCES (44)

1.

ANSYS Fluent Theory Guide, 2013. ANSYS, Inc., 275 Technology Drive Canonsburg, PA 15317.

2.

Biluš I, Škerget L, Predin A, Hriberšek M. Experimental and numerical analyses of the cavitational flows around a hydrofoil. Strojniški vestnik - Journal of Mechanical Engineering 2005; 51(2): 103-118.

3.

Bogdevičius P, Prentkovskis O, Bogdevičius M. Transmission with cardan joint parametre influence to centrifugal pump characteristics. Mokslas – Lietuvos Ateitis / Science – Future of Lithuania 2017; 9(5): 559-564, https://doi.org/10.3846/mla.20....

4.

Budinski M. Failure analysis of a rubber hose in anhydrous ammonia service. Case Studies in Engineering Failure Analysis 2013; 1(2): 156-164, https://doi.org/10.1016/j.csef....

5.

Cho J. Anisotropic large deformation and fatigue damage of rubber-fabric braid layered composite hose. Procedia Engineering 2017; 173: 1169-1176. https://doi.org/10.1016/j.proe....

6.

Doerfler P, Sick M, Coutu A. Flow-induced pulsation and vibration in hydroelectric machinery. Engineer’s guidebook for planning design and troubleshooting, Springer-Verlag 2013: 242, https://doi.org/10.1007/978-1-....

7.

Domagała Z, Kędzia K, Stosiak M. The use of innovative solutions improving selected energy or environmental indices of hydrostatic drives. IOP Conference Series. Materials Science and Engineering 2019; 679(1): 12, https://doi.org/10.1088/1757-8....

8.

Drumond G, Pasqualino I, Ferreira da Costa M. Study of an alternative material to manufacture layered hydraulic hoses. Polymer Testing 2016; 53: 29-39, https://doi.org/10.1016/j.poly....

9.

European standard. EN 853 2SN:2015. Rubber hoses and hose assemblies. Wire braid reinforced hydraulic type. Specification 2015; 17.

10.

Fedorko G, Molnar V, Dovicab M, Tothb T, Fabianova J. Failure analysis of irreversible changes in the construction of the damaged rubber hoses. Engineering Failure Analysis 2015; 58(1): 31–43, https://doi.org/10.1016/j.engf....

11.

Firoozabad E, Jeon B, Choi H, Kim N, Failure criterion for steel pipe elbows under cyclic loading. Engineering Failure Analysis 2016; 66: 515-525, https://doi.org/10.1016/j.engf....

12.

Foias C, Manley O, Rosa R, Temam R. Navier-Stokes equations and turbulence (Encyclopedia of Mathematics and its Applications). Cambridge: Cambridge University Press 2001; 347, https://doi.org/10.1017/CBO978....

13.

Gates Corporation. A Guide to Preventive Maintenance & Safety for Hydraulic Hose & Couplings. Printed in Denver, USA by Tomkins Company 2009; 76, http://www.marshall-equipement....

14.

German Institute for Standardisation. DIN 51524-2:2016. Pressure Fluids – Hydraulic Oils – Part 2: HLP Hydraulic Oils, Minimum Requirements. Specification 2016; 11.

15.

International Organization for Standardization. ISO 8434-1:2018. Metallic tube connections for fluid power and general use — Part 1: 24° cone connectors. Specification 2018; 51.

16.

Karpenko M, Bogdevičius M. Review of energy-saving technologies in modern hydraulic drives. Science – Future of Lithuania - Mokslas – Lietuvos Ateitis 2017; 9(5): 553–558, https://doi.org/10.3846/mla.20....

17.

Karpenko M, Bogdevičius M. Investigation of hydrodynamic processes in the system – “Pipeline-Fittings”. TRANSBALTICA XI: Transportation Science and Technology. TRANSBALTICA 2020; 331-340. Lecture Notes in Intelligent Transportation and Infrastructure. Springer, Cham, https://doi.org/10.1007/978-3-....

18.

Karpenko M, Bogdevičius M. Investigation into the hydrodynamic processes of fitting connections for determining pressure losses of transport hydraulic drive. Transport 2020; 35(1): 108-120, https://doi.org/10.3846/transp....

19.

Kubrak M, Malesińska A, Kodura A, Urbanowicz K, Stosiak M. Hydraulic transients in viscoelastic pipeline system with sudden crosssection changes. Energies 2021; 14(14): 4071, https://doi.org/10.3390/en1414....

20.

Kwak S, Choi N. Micro-damage formation of a rubber hose assembly for automotive hydraulic brakes under a durability test. Engineering Failure Analysis 2009; 16: 1262-1269, https://doi.org/10.1016/j.engf....

21.

Launder B, Spalding D. Lectures in mathematical models of turbulence. Academic Press, London, England 1972; 16, https://doi.org/10.1002/zamm.1....

22.

Lee G, Kim H, Park J, Jin H, Lee Y, Kim J. An experimental study and finite element analysis for finding leakage path in high pressure hose assembly. International Journal of Precision Engineering and Manufacturing 2011; 12: 537–542, https://doi.org/10.1007/s12541....

23.

Lisowski E, Panek M. CFD modeling method of vanes working in the vane pump. Eksploatacja i Niezawodnosc - Maintenance and Reliability 2004; 2: 36-41.

24.

Liu H, Zhang X, Quan L, Zhang H. Research on energy consumption of injection molding machine driven by five different types of electrohydraulic power units. Journal of Cleaner Production 2020: 242: 1–11, https://doi.org/10.1016/j.jcle....

25.

Lu X, Huang M. Novel multi-level modeling method for complex forging processes on hydraulic press machines. The International Journal of Advanced Manufacturing Technology 2015; 79: 1869–1880, https://doi.org/10.1007/s00170....

26.

Lubecki M, Stosiak M, Bocian M, Urbanowicz K. Analysis of selected dynamic properties of the composite hydraulic microhose. Engineering Failure Analysis 2021; 125: 1-9, https://doi.org/10.1016/j.engf....

27.

Luczko, J., Czerwiński, A. 2014. Parametric vibrations of pipes induced by pulsating ﬂows in hydraulic systems, Journal of Theoretical and Applied Mechanics, 52 (3): 719–730.

28.

Mazurkiewicz L, Malachowski J, Damaziak K, Tomaszewski, M. Evaluation of the response of fibre reinforced composite repair of steel pipeline subjected to puncture from excavator tooth. Composite Structures 2018; 202: 1126–1135, https://doi.org/10.1016/j.comp....

29.

Mikota G. Modal analysis of hydraulic pipelines. Journal of Sound and Vibration 2013; 332(16): 3794 – 3805, https://doi.org/10.1016/j.jsv.....

30.

Miller S. Systematic techniques of hose failure mode analysis. SAE Transactions 1991; 100: 687–703, http://www.jstor.org/stable/44....

31.

Obrien P, Meldrum E, Overton C, Picksley J, Anderson K, Ian M. Outcomes from the SureFlex joint industry project - an international initiative on flexible pipe integrity assurance. Paper presented at the Offshore Technology Conference, Houston, Texas, USA, May 2011, https://doi.org/10.4043/21524-....

32.

Parvaresh A, Mardani M. Model predictive control of a hydraulic actuator in torque applying system of a mechanically closed-loop test rig for the helicopter gearbox. Aviation 2019; 23(4): 143-153, https://doi.org/10.3846/aviati....

33.

Pavloušková Z, Klakurková L, Man O, Čelko L, Švejcar J. Assessment of the cause of cracking of hydraulic hose clamps. Engineering Failure Analysis 2015; 56: 14-19, https://doi.org/10.1016/j.engf....

34.

Pelevin L, Machyshyn G, Bogdevičius M, Karpenko M. Assessment of application high pressure hoses using mathematical model calculation load distribution between the metal braid. Mining, constructional, road and melioration machines: AllUkrainian collection of scientific works 2016; 88: 64-70.

35.

Pierce S, Evans J. Failure analysis of a metal bellows flexible hose subjected to multiple pressure cycles. Engineering Failure Analysis 2012; 22: 11-20, https://doi.org/10.1016/j.engf....

36.

Santos F, Brito A, de Castro A, Almeida M, da Cunha Lima A, Zebende G, da Cunha Lima I. Detection of the persistency of the blockages symmetry on the multi-scale cross-correlations of the velocity fields in internal turbulent flows in pipelines. Physica A: Statistical Mechanics and its Applications 2018; 509(1): 294–301, https://doi.org/10.1016/j.phys....

37.

Romaniuk M. Optimization of maintenance costs of a pipeline for a V-shaped hazard rate of malfunction intensities. Eksploatacja i Niezawodnosc – Maintenance and Reliability 2018; 20 (1): 46–56, https://doi.org/10.17531/ein.2....

38.

Τawancy Η, Al-Hadhrami L. Failure analysis of a welded outlet manifold pipe in a primary steam reformer by improper selection of materials. Engineering Failure Analysis 2009; 16(3): 816-824, https://doi.org/10.1016/j.engf....

39.

Taylor C, Thompson J, Handewith H, Thimons E. Hose safety during high-pressure water-jet cutting. Information Circular by USA Bureau of Mines Information, Pittsburgh 1987; 9.

40.

Urbanowicz K, Stosiak M, Towarnicki K, Bergant A. Theoretical and experimental investigations of transient flow in oil-hydraulic smalldiameter pipe system. Engineering Failure Analysis 2021; 128: 105607, https://doi.org/10.1016/j.engf....

41.

Urbanowicz K, Bergant A, Kodura A, Kubrak M, Malesińska A, Bury P, Stosiak M. Modeling transient pipe flow in plastic pipes with modified discrete bubble cavitation model. Energies 2021; 14(20):6756, https://doi.org/10.3390/en1420....

42.

Vardeman S, Jobe M. Statistical methods for quality assurance: basics, measurement, control, capability and improvement. Part of the Springer Texts in Statistics book series (STS) Springer–Verlag, New York 2016: 437, https://doi.org/10.1007/978-0-....

43.

Wei Q, Huailiang Z, Wenqian S, Wei L. Stress response of the hydraulic composite pipe subjected to random vibration. Composite Structures 2021; 255: 1-8, https://doi.org/10.1016/j.comp....

44.

Yangyang Y, Mengjiang C. Sealing failure and fretting fatigue behavior of fittings induced by pipeline vibration. International Journal of Fatigue 2020; 136: 105602, https://doi.org/10.1016/j.ijfa....

CITATIONS (27):

1.

Numerical Simulation for Redundant Electro-Hydrostatic Servo-Actuators under Certain Special Conditions
Liviu Dinca, Radu Bogateanu, Jenica-Ileana Corcau, Alexandru Dumitrache, Bogdan Suatean
Energies

2.

Theoretical and Experimental Study on Rapid Decompression Oscillation in Altitude Chamber
Zifeng Tian, Jianfeng Lu, Zhao Gu, Lihua Yu, Hao Zhou, Lijun Yang, Jinchao Chen
International Journal of Aerospace Engineering

3.

Energy Consumption Analysis of Helicopter Traction Device: A Modeling Method Considering Both Dynamic and Energy Consumption Characteristics of Mechanical Systems
Qian Liu, Zhuxin Zhang, Tuo Jia, Lixin Wang, Dingxuan Zhao
Energies

4.

Experimental Investigation of the Steady-State Flow Field with Particle Image Velocimetry on a Nozzle Check Valve and Its Dynamic Behaviour on the Pipeline System
Zhengbai Chang, Jin Jiang
Energies

5.

Stator Curvature Optimization and Analysis of Axial Hydraulic Vane Pumps
Yongguo Sun, Dong Xue, Shisheng Liu, Jinghang Wu, Xingyu Bai
Energies

6.

Experiment and Numerical Simulation on Hydraulic Loss and Flow Pattern of Low Hump Outlet Conduit with Different Inlet Water Rotation Speeds
Lei Xu, Tao Jiang, Chuan Wang, Dongtao Ji, Wei Shi, Bo Xu, Weigang Lu
Energies

7.

LANDING GEAR FAILURES CONNECTED WITH HIGH-PRESSURE HOSES AND ANALYSIS OF TRENDS IN AIRCRAFT TECHNICAL PROBLEMS
Mykola Karpenko
Aviation

8.

Braid Angle and its Influence on the Hydraulic Hoses Behaviour Under Pressure Loading
Filip Dýrr, Adam Bureček, Lumír Hružík, Tomáš Polášek, R. Lenhard, K. Kaduchová
MATEC Web of Conferences

9.

The influence of pressure drop on the working volume of a hydraulic motor
Paweł Śliwiński
Eksploatacja i Niezawodnosc - Maintenance and Reliability

10.

AN INVESTIGATION OF THE IMPACT OF PUMP DEFORMATIONS ON CIRCUMFERENTIAL GAP HEIGHT AS A FACTOR INFLUENCING VOLUMETRIC EFFICIENCY OF EXTERNAL GEAR PUMPS
Rafał Cieślicki, Mykola Karpenko
Transport

11.

Numerical simulation and experimental research on mechanical behaviour of hydraulic disc brakes based on multi-body dynamics
Wenyue Zhang, Cunbao Zhao, Pengyu Chen, Enli Chen, Tianyu Lei
Scientific Reports

12.

Repair Reliability Analysis of a Special-Shaped Epoxy Steel Sleeve for Low-Strength Tee Pipes
Jun Cao, Haidong Jia, Weifeng Ma, Ke Wang, Tian Yao, Junjie Ren, Hailiang Nie, Xiaobin Liang, Wei Dang
Metals

13.

Strength Analysis and Structure Optimization of the Crankshaft of an Opposed-Power Reciprocating Pump
Chuan Liu, Xiuting Wei, Zuyao Yi, Zhiqin Li, Changhao Zhu, Ze Ma
Machines

14.

Research of Vibration Effects on a Hydraulic Valve in the Pressure Pulsation Spectrum Analysis
Michał Stosiak, Mykola Karpenko, Adam Deptuła, Kamil Urbanowicz, Paulius Skačkauskas, Anna Deptuła, Algimantas Danilevičius, Šarūnas Šukevičius, Mariusz Łapka
Journal of Marine Science and Engineering

15.

TRANSBALTICA XIII: Transportation Science and Technology
Krzysztof Towarnicki, Michał Stosiak, Tadeusz Leśniewski, Adam Deptuła, Kamil Urbanowicz, Paweł Śliwiński

16.

TRANSBALTICA XIII: Transportation Science and Technology
Pawel Sliwinski, Piotr Patrosz, Marcin Bak, Michal Stosiak, Kamil Urbanowicz, Šarūnas Šukevičius

17.

Study Regarding the Influence of Blade Rotation Angle Deviations on the Hydraulic Pulsation Characteristics of a Mixed-Flow Pump
Yanjun Li, Danghang Sun, Fan Meng, Yunhao Zheng, Yi Zhong
Journal of Marine Science and Engineering

18.

Hydrodynamic Processes in Angular Fitting Connections of a Transport Machine’s Hydraulic Drive
Mykola Karpenko, Michał Stosiak, Šarūnas Šukevičius, Paulius Skačkauskas, Kamil Urbanowicz, Adam Deptuła
Machines

19.

A Comprehensive Review of Energy Regeneration and Conversion Technologies Based on Mechanical–Electric–Hydraulic Hybrid Energy Storage Systems in Vehicles
Bingyin Feng, Huijuan Xu, Aobing Wang, Lijun Gao, Yanjun Bi, Xin Zhang
Applied Sciences

20.

Design and Control of an Energy-Efficient Speed Regulating Method for Pump-Controlled Motor System under Negative Loads
Huashuai Wang, Yanbin Zhang, Geqiang Li, Rongsheng Liu, Xin Zhou
Machines

21.

Modeling and Theoretical Analysis of Zero-Flowrate-Switching Control Method for a Dynamic Load System to Reduce Switching Power Loss of Control Valves
Shuang Peng
Actuators

22.

Effect of Cavitating Hydraulic Elements on Pump Characteristics
Jana Jablonská, Milada Kozubková, Sylva Drábková, Tomáš Blejchař
Processes

23.

An Analysis of the Vibration Characteristics of an Aviation Hydraulic Pipeline with a Clamp
Yong Liu, Jinting Wei, Hao Du, Zhenpeng He, Fangchao Yan
Aerospace

24.

Investigation of Pressure Variations in Hose Pumps under Different Flow Regimes Using Bidirectional Fluid–Structure Interaction
Mengfan Wang, Lixin Zhang, Wendong Wang, Xiao Ma, Xue Hu, Jiawei Zhao, Xuewei Chao
Processes

25.

The Effect of Braid Angle on Hydraulic Hose Geometry
Filip Dýrr, Adam Bureček, Lumír Hružík, Tomáš Polášek, Marian Ledvoň, Lukáš Dvořák
Processes

26.

AIRCRAFT HYDRAULIC DRIVE ENERGY LOSSES AND OPERATION DELAY ASSOCIATED WITH THE PIPELINE AND FITTING CONNECTIONS
Mykola Karpenko
Aviation

27.

Load sensitive control characteristics of a novel two-dimensional pulse width modulated variable mechanism
Wu Jian, Ruan Jian, Ren Yan
Advances in Mechanical Engineering

Submit your paper

Information for Authors

Share

RELATED ARTICLE

Evaluation of the maintenance system readiness using the semi-Markov model taking into account hidden factors

Physical and reliability aspects of high-pressure ammonia water pipeline failures

Maintenance of heavy trucks: an international study on truck drivers

Time-based machine failure prediction in multi-machine manufacturing systems

Geometric approach to machine exploitation efficiency : modelling and assessment

Indexes

eISSN:	2956-3860
ISSN:	1507-2711

© 2006-2024 Journal hosting platform by Bentus

Scroll to top