Heat transfer coefficient determination using the FEM with time-dependent Trefftz-type basis functions in subcooled flow boiling in a minichannel

Beata Maciejewska; Magdalena Piasecka

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Heat transfer coefficient determination using the FEM with time-dependent Trefftz-type basis functions in subcooled flow boiling in a minichannel

机译：在小通道中过冷沸腾中，使用具有时间依赖性Trefftz型基函数的FEM进行传热系数确定

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Results concerning flow boiling heat transfer in a vertical minichannel of 1.7 mm depth were shown. The channel was asymmetrically heated by a thin foil. Its surface temperature was recorded continuously in points by thermocouples. Measurements were carried out in 0.01 s intervals. The objective of the numerical calculations was to determine the heat transfer coefficient on the heated foil–fluid contact surface in the minichannel from the Robin boundary condition. Both the foil and fluid temperatures were the result of solving the nonstationary two-dimensional problem in the foil and flowing fluid. The problem was solved by using the FEM combined with Trefftz-type basis functions. The values of the time-dependent local heat transfer coefficient were presented and discussed.

机译：显示了在1.7 mm深度的垂直小通道中流动沸腾传热的结果。通道被薄箔不对称加热。用热电偶连续记录其表面温度。以0.01秒的间隔进行测量。数值计算的目的是根据罗宾边界条件确定微通道中加热的箔-流体接触表面的传热系数。箔和流体温度都是解决箔和流动流体中的非平稳二维问题的结果。通过将FEM与Trefftz型基函数结合使用，可以解决该问题。提出并讨论了随时间变化的局部传热系数的值。

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《MATEC Web of Conferences》 |2018年第5期|共4页
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Beata Maciejewska; Magdalena Piasecka;
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1. The flow boiling heat transfer coefficient determination in a minichannel used the FEM combined with Trefftz functions [J] . Magdalena Piasecka, Kinga Str?k, Beata Maciejewska MATEC Web of Conferences . 2018,第3期

机译：有限元法结合Trefftz函数确定微型通道中的沸腾传热系数
2. Comparison of the 1D and 2D calculation models used for determination of the heat transfer coefficient during flow boiling heat transfer in a minichannel [J] . Kinga Strak, Magdalena Piasecka, Beata Maciejewska E3S Web of Conferences . 2019,第4期

机译：一维和二维计算模型的比较，用于确定小通道内流沸腾传热时的传热系数
3. The applicability of heat transfer correlations to flows in minichannels and new correlation for subcooled flow boiling [J] . Kinga Strak, Magdalena Piasecka International Journal of Heat and Mass Transfer . 2020,第Sepa期

机译：传热相关性的适用性与迷你沟槽流动的流动和过冷流量沸腾的新相关性
4. The heat transfer coefficient determination with the use of the Beck-Trefftz method in flow boiling in a minichannel [C] . Kinga Strak, Beata Maciejewska, Magdalena Piasecka International Conference on Experimental Fluid Mechanics . 2018

机译：使用Beck-Trefftz方法在Miniocannel中沸腾中的使用Beck-Trefftz方法的传热系数确定
5. Heat transfer and heat transfer fouling during subcooled flow boiling for electrolyte solutions [D] . Najibi, Seyed Hesam. 1997

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6. Local data of heat flux wall temperature and the void phase along the boiling curve during vertical subcooled flow boiling of refrigerant Novec 649 at a copper wall [O] . Moritz Bruder, Ludwig Sembach, Veronika Krumova, 2018

机译：制冷剂Novec 649在铜壁上的垂直过冷流动沸腾过程中沿沸腾曲线的热通量壁温和空隙相的局部数据
7. Heat transfer coefficient determination using the FEM with time-dependent Trefftz-type basis functions in subcooled flow boiling in a minichannel [O] . Beata Maciejewska, Magdalena Piasecka 2018

机译：使用时间依赖性Trefftz型基础函数的传热系数测定在MiniChinnel中的过冷流量沸腾的基础函数

Heat transfer coefficient determination using the FEM with time-dependent Trefftz-type basis functions in subcooled flow boiling in a minichannel

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