Influence of Air Duct Structure on the Flow Field and Temperature Field of Self-pickup Freezers

Chen Zhiming; Zhang Zhongbin; Xu Guanyi; Huang Hu; Wang Qing

doi:10.3969/j.issn.0253-4339.2019.05.052

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Influence of Air Duct Structure on the Flow Field and Temperature Field of Self-pickup Freezers

更新时间：2024-07-18

- Influence of Air Duct Structure on the Flow Field and Temperature Field of Self-pickup Freezers
- Journal of Refrigeration Vol. 40, Issue 5, (2019)
- 作者机构：
  
  1. 南京师范大学能源与机械工程学院江苏省能源系统过程转化与减排技术工程实验室
  2. 苏北洋冷链设备科技有限公司
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2019.05.052
  CLC：
- Published：2019
- 稿件说明：
移动端阅览
Chen Zhiming, Zhang Zhongbin, Xu Guanyi, et al. Influence of Air Duct Structure on the Flow Field and Temperature Field of Self-pickup Freezers[J]. Journal of refrigeration, 2019, 40(5).
DOI：

Chen Zhiming, Zhang Zhongbin, Xu Guanyi, et al. Influence of Air Duct Structure on the Flow Field and Temperature Field of Self-pickup Freezers[J]. Journal of refrigeration, 2019, 40(5). DOI： 10.3969/j.issn.0253-4339.2019.05.052.

摘要

风道结构的改变可有效改善自提冷冻柜内部气流组织和优化热环境性能。本文在自提冷冻冷藏柜有负载状态下，针对上送上回送风方式，改变风道结构，即轴流挡板角度(30°、45°、60°、90°)、背部送风孔板开孔方式（上疏下密的非均匀式开孔、下部集中式开孔、等间距式开孔）以及送风板通孔率(6%、8%、10%)，建立10种模型并分析对比，选取最优结构模型。并将原始结构（挡板角度45°、集中开孔方式、开孔率6%）模拟与实测结果进行对比，验证了模型的正确性。数值模拟和实验验证结果显示，回风板角度60°时相比于原对照组45°的均匀性提高了23.0%，非均匀开孔方式相比于集中式开孔速度均匀性提高了4.8%，且通孔率为8%时比原6%提高了5.1%整体均匀性，因此在回风板角度α=60°，送风板非均匀式开孔、通孔率φ=8%时冷冻柜气流组织合理，热环境性能较为理想。

Abstract

Modifying the air duct structure can effectively improve the air flow inside self-pickup freezers and optimize their thermal environment performance. Under the M-test package condition

air duct structures were modified separately with respect to axial baffle angle (30°

45°

60°

and 90°)

perforation rate (6%

and 10%)

and opening mode of the back orifice plate (non-uniform openings with upper sparse and lower dense

lower centralized openings

and equally spaced openings). Ten types of models were established and compared to determine the optimal structure model. Simulation results of the original structure (axial baffle angle of 45°

centralized openings

and perforation rate of 6%) were compared with the measured results to verify the correctness of the model. Both the numerical simulation and experimental verification show that the uniformity at α= 60° is 23% higher than that at 45°

velocity uniformity of non-uniform opening is 4.8% higher than that of the uniform openings

and overall uniformity is 5.1% higher than that of the original 6% when φ=8%. Therefore

airflow in the freezer is well organized and thermal environment performance is the best when the baffle angle of the axial fan was α=60°

non-uniform opening of the back orifice plate was considered

and perforation rate φ=8%.

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