Determining the optimum cyclic operation of adsorption chillers by a direct method for periodic optimal control
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- 作者:Manuel Grä ; bera ; m.graeber@tu-bs.de"" rel=""nofollow ; Christian Kirchesb ; Hans Georg Bockb ; Johannes P. Schlö ; derb ; Wilhelm Tegethoffa ; Jü ; rgen Kö ; hlera
- 关键词:Adsorption ; System ; Control ; Optimization ; Simulation
- 刊名:International Journal of Refrigeration
- 出版年:2011
- 出版时间:June 2011
- 年:2011
- 卷:34
- 期:4
- 页码:902-913
- 全文大小:447 K
文摘
Adsorption refrigeration systems provide a sustainable possibility to reduce the environmental impact of refrigeration and air-conditioning as they allow for sources of otherwise unused excess waste heat to be reused for cooling purposes. Adsorptive cooling is a discontinuously operated cycling process, and it is well known that the determination of an optimal cycling time yielding maximum cooling power is a key to the design of an efficient mode of operation. The optimal cycle time however strongly depends on operating conditions such as ambient air temperature, available heat source temperature, desired target cooling temperature, and achievable volume flow rates of the secondary heat transfer circuits. In this contribution, we apply a direct method for periodic optimal control to optimize two-bed adsorption chillers. We present a first principles dynamic model of the underlying thermal process. We show that direct methods for periodic optimal control allow for quick and reliable computation of optimal cycle times for a given set of parameters. Contrary to pre-existing methods, fast computation times and guaranteed optimality of the solutions computed by our approach makes it viable to extensively study the simulated optimal cyclic operation of two-bed adsorption chillers under a wide range of varying conditions.