节点文献
化学电源质量控制的模型研究
A Study on Quality Control Model of New Chemistry Power Source
【作者】 程福龙;
【导师】 汪波;
【作者基本信息】 天津大学 , 管理科学与工程, 2009, 博士
【摘要】 本文主要由新型能源质量管理的必要性,引出化学电源的质量管理问题,并明确了本论文的研究内容和结构。由质量管理的发展背景,模型实证研究的进展情况,化学电源质量管理的研究现状引出化学电源质量管理的模型实证研究。其次介绍了模型的理论基础,包括不同流派质量观、质量管理发展阶段、质量管理的工具与技术和质量管理新理念以及质量管理理论与方法的新拓展。接着提出化学电源质量控制及其特殊性。再次,建立化学电源质量控制模型的研究分析体系,分别以博弈分析模型、敏感性分析模型、DEA模型对化学电源的设计质量进行研究分析;分别以主成分分析模型、聚类模型对指标分类质量控制进行研究分析;分别以单双因素方差模型、典型相关分析模型、线性回归模型、灰色关联分析模型对指标相关性质量控制进行研究分析;分别以因子分析模型、层次分析模型、贝叶斯判别模型对化学电源的组合管理的质量控制进行研究分析;以预测模型对化学电源的充放电终压进行研究分析;以模糊综合评价模型对化学电源的质量功能进行综合评价分析。其中重点论述了组合管理的质量控制。从而为化学电源的设计质量控制,组合管理质量控制等提供了定量的理论依据和实践参考价值,超越以往单一的定性研究与经验数据研究,促进化学电源的工艺优化、质量控制和技术发展。最后,本文指出化学电源质量管理进一步发展方向。以上内容主要结合中国电子科技集团公司第十八研究所进行实证研究,中国电子科技集团公司第十八研究所成功研制了“神舟”6号飞船用镍氢电池、太阳能电池、“神舟”7号飞船用镍氢电池、太阳能电池,是我国化学电源与物理电源行业的成功典范。本文创新点各要点:1.在化学电源质量管理中拓展了新的质量管理理论与方法;2.以新型绿色能源—化学电源为研究对象;3.传统理论应用于化学电源领域的新拓展及新兴学科与前沿理论在化学电源领域的应用性研究;4.为其它领域相应问题研究提供理论与实践参考价值。
【Abstract】 This article provides chemical power’s quality management from the new energy’s the need for quality management. Clear and present research contents and structure are given. Then introducing the development of quality management and a model’s progress of domestic evident study and the development of chemical power’s quality management leading to evident research of model for the chemical power’s quality management. Following the basis of the theory about models is introduced, including quality view of different sect, developing stage of quality management, tools and technique of quality management, new principle of quality management and theories and methods of quality management expended lately. Then quality control and specialization of chemistry power are put forward. Again research and analysis system of chemistry power’s quality control is established. respectively, designed quality of the chemical power is evidently researched and analyzed by game analysis model, the sensitivity analysis model and DEA model; indicators for quality control of classified are evidently researched and analyzed by principal component analysis model, the cluster model; indicators related to quality control are researched and analyzed by single factor Variance model, the typical model of analysis, linear regression model and gray connection analysis; Quality control about the chemical power’s combined management is evidently researched and analyzed by respectively factor analysis model, the AHP model, the Bayesian model of discriminant. Charge and discharge’ending voltage is researched and analyzed by predicting model. Quality function of chemical power is completely evaluated and analyzed by misty comprehensive evaluation model. Which focuses on the combined management of quality control. Therefore this provides a quantitative theory basis and practical reference value for chemical power’s designing quality control and combined management’s quality control. Beyond the traditional single qualitative research and experienced data research ,the chemical power’s process optimization, quality control and technical development are promoted. Finally, this article pointed out that further developed direction of the chemical power‘s quality management. The mentioned content is discussed which is mainly combined the practices of the eighteenth research institute of electric science and technology’s company in China. The eighteenth research institute has succeeded in the source power of sun energy which has been used in the sixth、seventh number’s airship of Divine Ship and is the successful example of chemistry and physical power sources’trades in our country.Each important point of this text’s innovation1.Expand the new quality management theories and method in chemistry power’s quality management;2.Use the new green energy-chemistry power as a research object;3.Traditional theories are applied in chemistry power’s new field and the newly arising academics and theories are applied in chemistry power’s field;4.Provide the theory and practical reference value for correspondent problems of other field.
【Key words】 quality management; control model; chemical power; design quality; combining management;