薄壁颈管气相液氮罐设计漏热计算及验证
Calculation and Verification of Heat Leakage in the Design of Thin-walled Neck Tube Gas-phase Liquid Nitrogen Container
施敏海 1庞嘉炜 1陈光奇 1陆晓莉 1魏裕隆1
作者信息
- 1. 江苏深绿新能源科技有限公司,江苏 江阴 214400
- 折叠
摘要
为适应生物样本低温储存的发展需求,试制了有效容积 375 L、320 mm大口径偏口气相液氮罐.为降低漏热,达到蒸发率指标的设计要求,采用薄壁颈管结构的优化设计.根据设计结构,给出了固体导热、辐射传热及残余气体自由分子导热的漏热估算方法及结果,漏热设计计算符合国家标准规定的蒸发率指标.对一批试制品的初样产品的测试验证表明,其静态液氮蒸发率在(1.15~1.32)%/d,符合设计要求,产品主要性能指标满足要求.
Abstract
In order to meet the development needs of low-temperature storage of biological samples,a gas-phase liquid ni-trogen container with an effective volume of 375 L and a large caliber of 320 mm has been developed.To reduce heat leak-age and meet the design requirements of evaporation rate indicators,an optimized design of thin-walled neck tube structure is adopted.Based on the design structure,a heat leakage estimation method and results for solid heat conduction,radiation heat conduction,and residual gas free molecule heat conduction were provided,and the results met the evaporation rate in-dicators specified in national standards.The testing and verification of a batch of trial products show that their static thermal evaporation rate is(1.15~1.32)%/d.Meet the design requirements,and the main performance meet the requirements.
关键词
气相/液氮容器/低温生物保存/传热/漏热/静态日蒸发率Key words
gas phase/liquid nitrogen container/low temperature biological preservation/heat transfer/heat leakage/static daily evaporation rate引用本文复制引用
出版年
2024
NETL
NSTL
万方数据