The benefit of controlled and modified atmospheres for extending the storage life of fruits is world wide accepted. However, there are secondary effects such as the incidence of anaerobic respiration or the off-favour occurrence which are not sufficiently known and thus controlled. This study approaches the knowledge of those secondary effects by developing a spatio temporal model gathering fluid flow phenomenon and physic and physiological processes. The lattice Boltzmann model used as framework for mimicking the fluid flow shows to be a very flexible tool which reproduces complex macroscopic behaviours on a down up strategy better than Lattice Gas Cellular Automata (LGCA)
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机译:受控和改良的气氛可以延长水果的储存寿命,这一点已为全世界所接受。但是,存在诸如厌氧呼吸的发生或不利的发生之类的副效应,这些副效应尚未被充分了解并因此得到控制。这项研究通过开发收集流体流动现象以及物理和生理过程的时空模型来研究那些次要效应的知识。格子Boltzmann模型用作模拟流体流动的框架,显示出是一种非常灵活的工具,它在向下策略上可比Lattice Gas Cellular Cellular Automata(LGCA)更好地再现复杂的宏观行为。
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