A General Model for Predicting Low Reynolds Number Flow Pressure Drop in Non-Uniform Microchannels of Non-Circular Cross Section in Continuum and Slip-Flow Regimes

M. Akbari; A. Tamayol; M. Bahrami

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A General Model for Predicting Low Reynolds Number Flow Pressure Drop in Non-Uniform Microchannels of Non-Circular Cross Section in Continuum and Slip-Flow Regimes

机译：连续和滑流状态下非圆形截面非均匀微通道中低雷诺数流量压降的通用模型

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A general model that predicts single-phase creeping flow pressure drop in microchannels of a noncircular cross section under slip and no-slip regimes is proposed. The model accounts for gradual variations in the cross section and relates the pressure drop to geometrical parameters of the cross section, i.e., area, perimeter, and polar moment of inertia. The accuracy of the proposed model is assessed by comparing the results against experimental and numerical data collected from various studies in the literature for a wide variety of cross-sectional shapes. The suggested model can be used for the design and optimization of microsystems that contain networks of microchannels with noncircular cross sections resulting from different fabrication techniques.

机译：提出了在滑移和无滑移状态下预测非圆形截面微通道中单相蠕变流压降的通用模型。该模型考虑了横截面的逐渐变化，并将压降与横截面的几何参数相关，即面积，周长和极惯性矩。通过将结果与从文献中针对各种横截面形状的各种研究中收集的实验和数值数据进行比较，可以评估所提出模型的准确性。所建议的模型可以用于微系统的设计和优化，该微系统包含由不同制造技术产生的具有非圆形横截面的微通道网络。

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《Journal of Fluids Engineering: Transactions of the ASME》 |2013年第7期|共7页
作者
M. Akbari; A. Tamayol; M. Bahrami;
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1. A General Model for Predicting Low Reynolds Number Flow Pressure Drop in Non-Uniform Microchannels of Non-Circular Cross Section in Continuum and Slip-Flow Regimes [J] . M. Akbari, A. Tamayol, M. Bahrami Journal of Fluids Engineering: Transactions of the ASME . 2013,第7期

机译：连续和滑流状态下非圆形截面非均匀微通道中低雷诺数流量压降的通用模型
2. Slip-Flow Pressure Drop in Microchannels of General Cross Section [J] . M. Bahrami, A. Tamayol, P. Taheri Journal of Fluids Engineering: Transactions of the ASME . 2009,第3期

机译：大截面微通道中的滑流压降
3. Flow regime-based modeling of heat transfer and pressure drop in microchannel flow boiling [J] . Tannaz Harirchian, Suresh V. Garimella International Journal of Heat and Mass Transfer . 2012,第4期

机译：基于流态的微通道沸腾传热和压降建模
4. SLIP-FLOW PRESSURE DROP IN MICROCHANNELS OF GENERAL CROSS-SECTION [C] . A. Tamayol, M. Bahrami, P. Taheri 6th international conference on nanochannels, microchannels and minichannels 2008 . 2008

机译：一般横截面微通道中的滑流压降
5. Void fraction, pressure drop, and heat transfer in high pressure condensing flows through microchannels. [D] . Keinath, Brendon. 2012

机译：空隙率，压降和高压冷凝中的热传递流经微通道。
6. Combined Influence of Hall Current and Soret Effect on Chemically Reacting Magnetomicropolar Fluid Flow from Radiative Rotating Vertical Surface with Variable Suction in Slip-Flow Regime [O] . Preeti Jain 2014

机译：霍尔电流和索特效应对滑流状态下辐射可变吸力辐射旋转垂直表面的化学反应磁微极流体流动的综合影响
7. Discussion: “Slip-Flow Pressure Drop in Microchannels of General Cross Section” [O] . C. Y. Wang 2012

机译：讨论：“一般横截面微通道的滑动压力下降”
8. Two Phase Flow Modeling: Summary of Flow Regimes and Pressure Drop Correlations in Reduced and Partial Gravity [R] . Balasubramaniam, R., Rame, E., Kizito, J., 2006

机译：两相流建模：减少和部分重力下的流动状态和压降关系的总结

A General Model for Predicting Low Reynolds Number Flow Pressure Drop in Non-Uniform Microchannels of Non-Circular Cross Section in Continuum and Slip-Flow Regimes

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