Article: Optimum design of seat region in valves suitable for digital displacement machines Journal: International Journal of Mechatronics and Automation (IJMA) 2014 Vol.4 No.2 pp.116 - 126 Abstract: Digital displacement fluid power is an upcoming technology setting new standards for the achievable efficiency in variable displacement fluid power pumps and motors. In the present work, an annular seat valve suitable for use in digital displacement units is considered, and the valve geometry is optimised considering both the mechanical strength during pressure loading and fluid flow restriction in the open valve state. Material stresses are modelled using finite element (FE) analysis including non-linear material behaviour, contact elements and fluid pressure penetrating load, closely reflecting the actual load of the seat valve connected to a fluid pressure chamber. Valve pressure losses are modelled using computational fluid dynamics (CFD). On basis of an overall physical size requirement and material specification, optimum valve geometry and stroke length are given as function of a defined normalised flow coefficient directly related to the machine efficiency. Inderscience Publishers - linking academia, business and industry through research

Title: Optimum design of seat region in valves suitable for digital displacement machines

Authors: Daniel Beck Roemer; Per Johansen; Henrik C. Pedersen; Torben O. Andersen

Addresses: Department of Energy Technology, Aalborg University, Pontoppidanstraede 101, 9220 Aalborg East, Denmark ' Department of Energy Technology, Aalborg University, Pontoppidanstraede 101, 9220 Aalborg East, Denmark ' Department of Energy Technology, Aalborg University, Pontoppidanstraede 101, 9220 Aalborg East, Denmark ' Department of Energy Technology, Aalborg University, Pontoppidanstraede 101, 9220 Aalborg East, Denmark

Abstract: Digital displacement fluid power is an upcoming technology setting new standards for the achievable efficiency in variable displacement fluid power pumps and motors. In the present work, an annular seat valve suitable for use in digital displacement units is considered, and the valve geometry is optimised considering both the mechanical strength during pressure loading and fluid flow restriction in the open valve state. Material stresses are modelled using finite element (FE) analysis including non-linear material behaviour, contact elements and fluid pressure penetrating load, closely reflecting the actual load of the seat valve connected to a fluid pressure chamber. Valve pressure losses are modelled using computational fluid dynamics (CFD). On basis of an overall physical size requirement and material specification, optimum valve geometry and stroke length are given as function of a defined normalised flow coefficient directly related to the machine efficiency.

Keywords: digital displacement machines; fast switching valves; computational fluid dynamics; CFD; finite element analysis; FEA; fluid power pumps; fluid power motors; optimum design; annular seat valves; valve geometry; pressure loading; fluid flow restriction; material stresses; modelling; stroke length.

DOI: 10.1504/IJMA.2014.062339

International Journal of Mechatronics and Automation, 2014 Vol.4 No.2, pp.116 - 126

Received: 14 Sep 2013
Accepted: 26 Dec 2013
Published online: 17 Jun 2014 *

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Title: Optimum design of seat region in valves suitable for digital displacement machines

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