摘要
将TRIZ理论与功能分析相结合,建立基于TRIZ的功能分析模型,并构建相应的技术创新流程,以海上风电新型筒型基础安装沉放及运行承载分析为例,介绍通过技术创新解决矛盾问题的过程,研究结果表明该创新流程适用于筒型基础的改良与优化,对提高筒型基础的创新效率具有较好的支撑作用。
This paper combines the TRIZ theory with functional analysis,establishes a TRIZ-based functional analysis model,and constructs a corresponding technological innovation process for the bucket foundation.Taking the installation and load-bearing analysis of the new composite bucket foundation as an example,this paper presents the process of solving contradiction through technological innovation.The results showed that the proposed innovation process is suitable for the improvement and optimization of the bucket foundation,and has a better supporting effect on enhancing the innovation efficiency of the bucket foundation.
作者
练继建
肖瑶瑶
张浦阳
王海军
郭耀华
Lian Jijian;Xiao Yaoyao;Zhang Puyang;Wang Haijun;Guo Yaohua(State key Laboratory of Hydraulic Engineering Simulation and Safety,Tianjin University,Tiangjin 300354,China;Frontier Technology Research Institute Limited Company of Tianjin University,Tianjin 300072,China)
出处
《太阳能学报》
EI
CAS
CSCD
北大核心
2021年第5期401-406,共6页
Acta Energiae Solaris Sinica
基金
科技部创新方法工作专项资助(2016IM030100)
天津市科技计划(16PTGCCX00160)。
关键词
海洋工程
海上风力发电
TRIZ
筒型基础
功能分析
ocean engineering
offshore wind power
TRIZ
bucket foundation
functional analysis
