Loading [MathJax]/extensions/MathZoom.js

Backstepping-based stabilization of the pool-boiling system: An application of the circle criterion | IEEE Conference Publication | IEEE Xplore

- Donate
- Personal Sign In

ADVANCED SEARCH

Conferences >2016 European Control Confere...

Backstepping-based stabilization of the pool-boiling system: An application of the circle criterion

Download PDF
Download References
Request Permissions
Save to
Alerts

Abstract:

We deal with the problem of the stabilization of the nonlinear PDE system that represents a pool boiling under a feedback loop. Toward this end, first we study well-posed...Show More

Metadata

Abstract:

We deal with the problem of the stabilization of the nonlinear PDE system that represents a pool boiling under a feedback loop. Toward this end, first we study well-posedness by discussing the choice of the appropriate space of functions, where the problem is cast. Second, we focus on various examples of backstepping feedback laws that can ensure stability and analyze them by using Popov-like theorems based on the circle criterion. Third, simulation results are reported to illustrate the findings of the theoretical investigation.

Published in: 2016 European Control Conference (ECC)

Date of Conference: 29 June 2016 - 01 July 2016

Date Added to IEEE Xplore: 09 January 2017

ISBN Information:

DOI: 10.1109/ECC.2016.7810299

Conference Location: Aalborg, Denmark

References is not available for this document.

I. Introduction

For linear systems described by partial differential equations (PDEs) the choice of the feedback operator is often a difficult task, as it affects the location of an infinite spectrum on the complex plane. The problem is even more challenging for nonlinear distributed parameter systems (DPSs). Indeed, in this paper attention is devoted to an example of nonlinear DPS, the pool-boiling (PB) system with the goal of designing a feedback law for its stabilization.

Select All

1.

C.I. Byrnes, D. S. Gilliam, V. I. Shubov and G. Weiss, "Regular linear systems governed by a boundary controlled heat equation", Journal of Dynamical and Control Systems, vol. 8, pp. 341-370, 2002.

CrossRef Google Scholar

2.

Z. Emirsjlow and S. Townley, "From PDEs with boundary control to the abstract state space equation with an unbounded input operator: a tutorial", European J. of Control, vol. 6, pp. 27-49, 2000.

CrossRef Google Scholar

3.

W. Marquardt, J. Blum and T. Luttich, "Temperature wave propagation as a route from nucleate to film boiling?", Proc. 2nd Int. Symp. on Two-phase Flow Modelling and Experimentation, 1999.

4.

R. Jamal, A. Chow and K. Morris, "Linearized stability analysis of nonlinear partial differential equations", 21st InternationalSymposium On Mathematical Theory of Networks and Systems Groningen The Netherlands, pp. 847-852, 2014.

5.

B. Jayawardhana, H. Logemann and E. Ryan, "Infinite-dimensional feedback systems: The circle criterion and input-to-state stability", Comm. in Information Systems, vol. 8, no. 4, pp. 413-444, 2008.

CrossRef Google Scholar

6.

B. Jayawardhana, H. Logemann and E. Ryan, "The circle criterion and input-to-state stability", IEEE Contr. Systems Magazine, vol. 33, no. 4, pp. 32-67, 2011.

7.

M. Krstic, Boundary Control of PDEs: A Course on Backstepping Designs, Philadelphia, PA, USA:Society for Industrial and Applied Mathematics, 2008.

CrossRef Google Scholar

8.

W. Marquardt, M. Speetjens and A. Reusken, "Steady-state solutions in a three-dimensional nonlinear pool-boiling heat-transfer model", Communications in Nonlinear Scienceand Numerical Simulation, vol. 13, no. 8, pp. 1518-1537, 2008.

9.

G. Weiss and M. Tucsnak, Observation and Control for Operator Semigroups, 2009.

10.

K.A. Morris, "Justification of input-output methods for systems with unbounded control and observation", IEEE Trans. on Automat. Control, vol. 44, no. 1, pp. 81-85, 1999.

11.

R. Rebarber, "Conditions for the equivalence of internal and external stability for distributed parameter systems", IEEE Trans. on Automat. Control, vol. 38, no. 6, pp. 994-998, 1993.

12.

D. Salamon, "Infinite dimensional linear systems with unbounded control and observation: a functional analytic approach", Trans. AMS, vol. 300, no. 2, pp. 383-431, 1987.

CrossRef Google Scholar

13.

A. Smyshlyaev and M. Krstic, "Closed-form boundary state feedbacks for a class of 1-D partial integro-differential equations", IEEE Trans. Automat. Contr, vol. 49, no. 12, pp. 2185-2202, 2004.

14.

A. Smyshlyaev and M. Krstic, "Adaptive boundary control for unstable parabolic pdes part iii: Output feedback examples with swapping identifiers", Automatica, vol. 43, pp. 1557-1564, 2007.

CrossRef Google Scholar

15.

A. Smyshlyaev and M. Krstic, Adaptive Control of Parabolic PDEs, Princeton:Princeton University Press, 2010.

CrossRef Google Scholar

16.

M. Speetjens, A. Reusken, S. Maier-Paape and W. Marquardt, "Stability analysis of two-dimensional pool-boiling systems", SIAM Journal on Applied Dynamical Systems, vol. 7, no. 3, pp. 933-961, 2008.

CrossRef Google Scholar

17.

M. Speetjens, A. Reusken and W. Marquardt, "Steady-state solutions in a nonlinear pool-boiling model", Communications in Nonlinear Scienceand Numerical Simulation, vol. 13, no. 8, pp. 1475-1494, 2008.

CrossRef Google Scholar

18.

O. Staffans, Well-posed Linear Systems, Cambridge, UK:Cambridge University Press, 2005.

CrossRef Google Scholar

19.

R. Triggiani, "On the stabilizability problem in Banach spaces", J. Math. Anal. Appl, vol. 52, no. 3, pp. 383-403, 1975.

CrossRef Google Scholar

20.

R. Triggiani, "Boundary feedback stabilization of parabolicequations", Appl. Math. Optim, vol. 6, no. 1, pp. 201-220, 1980.

CrossRef Google Scholar

21.

M. Tucsnak and G. Weiss, "Well-posed systems the LTI case and beyond", Automatica, vol. 50, no. 7, pp. 1757-1779, 2014.

CrossRef Google Scholar

22.

R. van Gils, Feedback stabilization of pool-boiling systems for application in thermal management schemes, 2012.

23.

R. van Gils, M. Speetjens and H. Nijmeijer, "Feedback stabilization of a one-dimensional nonlinear pool-boiling system", Int. J. of Heat and Mass Transfer, vol. 53, pp. 11-12, 2010.

CrossRef Google Scholar

24.

R. van Gils, H. Zwart, M. Speetjens and H. Nijmeijer, "Global exponential stabilization of a two-dimensional pool-boiling model", IEEE Trans. Automat. Contr, vol. 59, no. 1, pp. 205-210, 2014.

25.

G. Weiss, "Regular linear systems with feedback", Control Signal Systems, vol. 7, pp. 23-57, 1994.

CrossRef Google Scholar

26.

G. Weiss, "Optimizability and estimatability for infinite-dimensional linear systems", SIAM J. Control and Optimization, vol. 39, no. 4, pp. 1204-1232, 2000.

CrossRef Google Scholar

27.

G. Weiss and R. F. Curtain, "Dynamic stabilization of regular linear systems", IEEE Trans. on Automat. Control, vol. 42, no. 1, pp. 4-21, 1997.

28.

H. Zwart, Y. Le Gorrec and B. Maschke, Using system theory to prove existence of nonlinear PDEs. 1 er IFAC Workshop Control of Systems Governed by Partial Differential Equations, 2013.

References is not available for this document.