基于ANSYS深海极端环境大型生物培养釜的结构优化 Structural optimization of large biological culture vessel in deep-sea extreme environments on ANSYS期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

基于ANSYS深海极端环境大型生物培养釜的结构优化

引用本文：	魏光超,李世伦,侯继伟,陈家旺.基于ANSYS深海极端环境大型生物培养釜的结构优化[J].机电工程,2010,27(3):18-20,24.

作者姓名：	魏光超李世伦侯继伟陈家旺

作者单位：	浙江大学,流体传动与控制国家重点实验室,浙江,杭州,310027

基金项目：	国家高技术研究发展计划(“863”计划)资助项目(2007AA091902)

摘要：	针对深海极端环境大型生物培养釜的高压大容积,并要求快速开启的特点,提出了一种新型开启结构。首先采用传统的数值设计方法对培养釜进行初步设计,然后结合机械优化设计方法,采用ANSYS软件中提供的一阶优化方法对该培养釜进行应力分析和结构优化设计,得到了合理的结构设计参数。优化结果表明,在培养釜重量减少约7.75%的基础上,应力分布更加均匀合理,优化效果明显。
关键词：	ANSYS 压力容器培养釜应力分析结构优化
Structural optimization of large biological culture vessel in deep-sea extreme environments on ANSYS

WEI Guang-chao,LI Shi-lun,HOU Ji-wei,CHEN Jia-wang.Structural optimization of large biological culture vessel in deep-sea extreme environments on ANSYS[J].Mechanical & Electrical Engineering Magazine,2010,27(3):18-20,24.

Authors:	WEI Guang-chao LI Shi-lun HOU Ji-wei CHEN Jia-wang

Affiliation:	State Key Laboratory of Fluid Power Transmission and Control;Zhejiang University;Hangzhou 310027;China

Abstract:	Considering of the high pressure,large volume and fast-opening characteristics,a new fast-opening structure was adapted for culture vessel in deep-sea extreme environments.Traditional numerical design method was adapted for the preliminary design firstly.Then according to mechanical optimization method,first step optimization in ANSYS software,stress analysis and structural optimization were carried on for culture vessel.The optimization results show that the pressure vessel weight is descended about 7.75% ...

Keywords:	ANSYS pressure vessel culture vessel stress analysis structural optimization
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