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[1]黄维秋 陈风 吕成 张高 黄风雨.基于风洞平台实验的内浮顶罐油气泄漏扩散数值模拟[J].油气储运,2020,39(01):1-9.
HUANG Weiqiu,CHEN Feng,LYU Cheng,et al.Numerical simulation of oil vapor leakage and diffusion from inner floating roof tank based on wind tunnel platform test[J].Oil & Gas Storage and Transportation,2020,39(01):1-9.
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HUANG Weiqiu,CHEN Feng,LYU Cheng,et al.Numerical simulation of oil vapor leakage and diffusion from inner floating roof tank based on wind tunnel platform test[J].Oil & Gas Storage and Transportation,2020,39(01):1-9.
基于风洞平台实验的内浮顶罐油气泄漏扩散数值模拟
《油气储运》[ISSN:1000-8241/CN:13-1093/TE]
卷:
39
期数:
2020年01期
页码:
1-9
栏目:
出版日期:
2020-01-25
- Title:
-
Numerical simulation of oil vapor leakage and diffusion from inner floating roof tank based on wind tunnel platform test
- Keywords:
-
inner floating roof tank
; oil vapor leakage; wind tunnel; oil vapor mass concentration; numerical simulation
- 分类号:
- TE85
- 文献标志码:
- A
- 摘要:
-
研究内浮顶罐油气泄漏扩散规律对于加强环境污染控制,保障罐区安全有着重要意义。建立风洞实验平台,测试小型内浮顶罐风速及浮盘位置对蒸发损耗速率的影响,并考察了风场和浓度场分布规律。基于CFD数值模拟,使用UDF导入环境风,建立了内浮顶罐油气泄漏扩散的数值模型,并通过风洞实验数据验证其模拟的可行性。重点讨论了内浮顶罐外风场及风压分布规律、风速对内浮顶罐油气流场分布及油气扩散浓度的影响。结果表明:浮盘位置越低,风速越大,蒸发速率越快;罐壁的静压力分布规律为迎风侧最大,背风侧居中,罐两侧最小;不同风速下,罐内油气分布整体呈现对称状态;风速越小,油气质量浓度越高,浮盘缝隙处的油气质量浓度最高,并存在下安全和环境污染隐患。研究成果对于内浮顶罐设计及运行维护、环保安全管理具有参考价值。
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[2]黄维秋 陈风 吕成 张高 黄风雨.基于风洞平台实验的内浮顶罐油气泄漏扩散数值模拟[J].油气储运,2020,39(04):425.[doi:10.6047/j.issn.1000-8241.2020.04.010]
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更新日期/Last Update:
2020-03-19