Solution of a linear model of a single-piston pump by means of methods for differential equations in Hilbert spaces
Applications of Mathematics, Tome 31 (1986) no. 6, pp. 461-479
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A mathematical model of a fluid flow in a single-piston pump is formulated and solved. Variation of pressure and rate of flow in suction and delivery piping respectively is described by linearized Euler equations for barotropic fluid. A new phenomenon is introduced by a boundary condition with discontinuous coefficient describing function of a valve. The system of Euler equations is converted to a second order equation in the space $L^2(0,l)$ where $l$ is length of the pipe. The existence, unicity and stability of the solution of the Cauchy problem and the periodic solution is proved under explicit assumptions.
A mathematical model of a fluid flow in a single-piston pump is formulated and solved. Variation of pressure and rate of flow in suction and delivery piping respectively is described by linearized Euler equations for barotropic fluid. A new phenomenon is introduced by a boundary condition with discontinuous coefficient describing function of a valve. The system of Euler equations is converted to a second order equation in the space $L^2(0,l)$ where $l$ is length of the pipe. The existence, unicity and stability of the solution of the Cauchy problem and the periodic solution is proved under explicit assumptions.
DOI :
10.21136/AM.1986.104224
Classification :
35B10, 35B35, 35L20, 76N10
Keywords: telegraph equation; time-dependent boundary condition; single-piston pump; linearized Euler equations; barotropic fluid; boundary condition with discontinuous coefficient; existence; Cauchy problem; periodic solution; compressible fluid flow
Keywords: telegraph equation; time-dependent boundary condition; single-piston pump; linearized Euler equations; barotropic fluid; boundary condition with discontinuous coefficient; existence; Cauchy problem; periodic solution; compressible fluid flow
Straškraba, Ivan. Solution of a linear model of a single-piston pump by means of methods for differential equations in Hilbert spaces. Applications of Mathematics, Tome 31 (1986) no. 6, pp. 461-479. doi: 10.21136/AM.1986.104224
@article{10_21136_AM_1986_104224,
author = {Stra\v{s}kraba, Ivan},
title = {Solution of a linear model of a single-piston pump by means of methods for differential equations in {Hilbert} spaces},
journal = {Applications of Mathematics},
pages = {461--479},
year = {1986},
volume = {31},
number = {6},
doi = {10.21136/AM.1986.104224},
mrnumber = {0870482},
zbl = {0644.76081},
language = {en},
url = {http://geodesic.mathdoc.fr/articles/10.21136/AM.1986.104224/}
}
TY - JOUR AU - Straškraba, Ivan TI - Solution of a linear model of a single-piston pump by means of methods for differential equations in Hilbert spaces JO - Applications of Mathematics PY - 1986 SP - 461 EP - 479 VL - 31 IS - 6 UR - http://geodesic.mathdoc.fr/articles/10.21136/AM.1986.104224/ DO - 10.21136/AM.1986.104224 LA - en ID - 10_21136_AM_1986_104224 ER -
%0 Journal Article %A Straškraba, Ivan %T Solution of a linear model of a single-piston pump by means of methods for differential equations in Hilbert spaces %J Applications of Mathematics %D 1986 %P 461-479 %V 31 %N 6 %U http://geodesic.mathdoc.fr/articles/10.21136/AM.1986.104224/ %R 10.21136/AM.1986.104224 %G en %F 10_21136_AM_1986_104224
[1] V. Kolarčík: Linear model of a piston pump. Communication during the cooperation of Mathematical Institute of Czechoslovak Academy of Sciences and Research Institute of Concern Sigma Olomouc in 1984. Also to appear in Acta Technica ČSAV 1987-8.
[2] V. Lovicar: Private communication. | Zbl
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