Gas Flow Simulation in the Working Gap of Impulse Gas-Barrier Face Seal-Reference-Cited by-同舟云学术

Gas Flow Simulation in the Working Gap of Impulse Gas-Barrier Face Seal

Published:2020-08-17 Issue:4 Volume:28 Page:298-303
ISSN:2450-5781
Container-title:Management Systems in Production Engineering
language:en
Short-container-title:

Author:

Kuznetsov Eduard¹^ORCID,Nahornyi Volodymyr¹^ORCID,Krenický Tibor²^ORCID

Affiliation:

1. Sumy State University

2. Technical University of Kosice

Abstract

Abstract Numerical simulation method of the working process of a centrifugal unit contactless face impulse seal is proposed. A seal functioning physical model was created. Its operation key aspects that are not taken into account in the traditional methods of calculating contactless impulse seals are identified. A numerical simulation of seal working process based on the Reynolds equation solution for the medium vortex-free motion in the gap between moving surfaces is proposed. Hypothesis that simplify the equation’s numerical solution for the face impulse seal is formulated. The numerical solution is obtained using the boundary element method. Based on the obtained numerical solution, the distribution of the working medium pressure field in the seal gap is simulated.

Publisher

Walter de Gruyter GmbH

Subject

Management of Technology and Innovation,Industrial and Manufacturing Engineering,Management Information Systems

Link

https://www.sciendo.com/pdf/10.2478/mspe-2020-0042

Reference40 articles.

1. [1] A. Panda, J. Duplak, J. Jurko and M. Behun. “Comprehensive Identification of Sintered Carbide Durability in Machining Process of Bearings Steel 100CrMn6”. Advanced Materials Research, vol. 340, pp. 30-33, 2011.

2. [2] E.G. Kuznetsov and A.E. Chernov. “Study of flow rate characteristics of the impulse gas barrier face seal”. Bulletin of Sumy State University: Engeneering scienses, vol. 42, pp. 55-60, 2002.

3. [3] E.G. Kuznetsov. “Determination of pressure field in lubricating layer of pulse-type gas barrier seal”. Printing technology and techniques, vol. 4(6), pp.78-85, 2004.

4. [4] E.G. Kuznetsov. “Theoretical and experimental studies of gas barrier impulse mechanical seal”. In: 11th International Scientific and Engineering Conference on Hermetic Sealing, Vibration Reliability and Ecological Safety of Pump and Compressor Machinery, HERVICON 2005, vol. 11, pp. 156-164, 2005.

5. [5] E. Kuznetsov, V. Nahornyi, S. Vashchenko, O. Aleksenko, I. Baranova, A. Panda and I. Pandova. “Experimental researches of the pulse gas barrier face seal”. Modern Machinery (MM) Science Journal, vol. 4, pp. 3519-3522, 2019.

Cited by 19 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Numerical Simulation of the Behavior of Impulse Gas Seals;Tribology Online;2024-07-07

2. DESIGN, IMPLEMENTATION, AND TESTING OF A 3D-PRINTED GRIPPER ACTUATED BY NITINOL SPRINGS;MM Science Journal;2024-06-03

3. INTELLIGENT INFORMATION TECHNOLOGIES TO SUPPORT DECISION-MAKING WHEN APPLYING THE CAD/CAM/CAE SYSTEM OF DESIGN AND USING ADDITIVE TECHNOLOGIES;MM Science Journal;2024-06-03

4. ADVANCED COMBUSTION CHAMBER FOR HCCI TECHNOLOGY APPLICATION;MM Science Journal;2024-03-06

5. DEVELOPMENT OF A MATHEMATICAL MODEL FOR THE ENERGY BALANCE OF THE LASER CLADDING PROCESS OF METALLIC POWDERS WITH A COAXIAL NOZZLE;MM Science Journal;2024-03-06