层流-湍流过渡附近工业规模浆料管道中的长时间瞬态

IF 2.8 Q2 MECHANICS
A. Dash, C. Poelma
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引用次数: 0

摘要

摘要我们重新审视了大型管道中细粒浆料的层流-湍流转变。工业规模设施中的长测量时间和超声波成像相结合,使我们能够观察和解决异常趋势。在湍流条件下,流动是均匀和稳定的。然而,在层流条件下,捕捉到两种类型的长时间尺度瞬态行为。在第一种情况下,系统已经被均质化,随后流速降低到层流条件。流速继续逐渐下降,同时颗粒沉淀并形成固定床。在第二种情况下,系统已长时间关闭,流速缓慢增加。当颗粒从逐渐侵蚀的床中缓慢再悬浮时,流速继续上升。在层流-湍流过渡点附近,两种类型的间歇结构负责再悬浮。具有稳定流速的平衡阶段与完全再悬浮相一致。这两个长时间尺度的瞬态分别对应于“缓慢沉降”和“自平衡”现象。前者可能导致停机,而后者会产生稳定的系统。在层流-湍流过渡的有利操作点附近操作浆料管道时,意识到这些现象是相关的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Long-time-scale transients in an industrial-scale slurry pipeline near the laminar–turbulent transition
Abstract We revisit the laminar–turbulent transition of a fine-grained slurry in a large pipe. The combination of long measurement times in an industrial-scale facility and ultrasound imaging allows us to observe and address anomalous trends. Under turbulent conditions, the flow is homogeneous and steady. However, under laminar conditions, two types of long-time-scale transient behaviours are captured. In the first scenario, the system has been homogenized, following which the flow rate is reduced to laminar conditions. The flow rate continues to gradually drop, while particles settle and form a stationary bed. In the second scenario, the system has been shut down for a prolonged period and the flow rate is slowly increased. The flow rate continues to rise while particles are slowly resuspended from the gradually eroding bed. Near the laminar–turbulent transition point, two types of intermittent structures are responsible for resuspension. The equilibrium phase, with steady flow rate, coincides with complete resuspension. These two long-time-scale transients correspond to the phenomena of ‘slow settling’ and ‘self-equilibration’, respectively. While the former can lead to shutdowns, the latter generates a stable system. Being aware of these phenomena is of relevance while operating slurry pipelines near the favourable operating point of the laminar–turbulent transition.
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CiteScore
2.40
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0.00%
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