期刊文献+
共找到5篇文章
< 1 >
每页显示 20 50 100
小型风电叶片优化配对技术研究 被引量:1
1
作者 茅灵嵘 何斌 +2 位作者 安逸 傅洁 范钦珊 《机械设计与制造》 北大核心 2012年第10期99-101,共3页
小型复合材料风力机叶片加工不均匀导致旋转风轮产生不平衡,为了控制装机后的风轮不平衡量,在安装前需要对风力机叶片进行合适的配对优选。建立风力机叶片配对力学模型和配对优化模型,设计并研制了小型风电叶片质量和质心位置检测系统,... 小型复合材料风力机叶片加工不均匀导致旋转风轮产生不平衡,为了控制装机后的风轮不平衡量,在安装前需要对风力机叶片进行合适的配对优选。建立风力机叶片配对力学模型和配对优化模型,设计并研制了小型风电叶片质量和质心位置检测系统,利用Visual Basic环境建立可视化软件平台,采用遗传算法开发配对优化程序。实例计算表明,遗传算法配对优化效率高、速度快,具有较强的工程意义。 展开更多
关键词 风力机 叶片 遗传算法 VB程序开发 配对优化
下载PDF
热量计量仪表铂电阻最优配对算法
2
作者 任姝 吉小军 +4 位作者 董浩然 蔡萍 韩韬 陈乐生 周鲜美 《上海交通大学学报》 EI CAS CSCD 北大核心 2013年第4期663-666,共4页
针对批量热电阻生产过程中2支热电阻在满足配对规范要求下实现成对数量最大化的问题,提出一种基于矩阵运算的最优配对算法.该算法基于矩阵运算,通过1次循环得到所有满足配对条件的成对组合,对成对组合中因素群的成对率进行分析,得出选... 针对批量热电阻生产过程中2支热电阻在满足配对规范要求下实现成对数量最大化的问题,提出一种基于矩阵运算的最优配对算法.该算法基于矩阵运算,通过1次循环得到所有满足配对条件的成对组合,对成对组合中因素群的成对率进行分析,得出选取成对组合的影响因子.影响因子决定该组合被选取的优先级,根据此优先级确定优化筛选过程,从而得到最优配对方案.采用蒙特卡罗方法验证的结果表明,在满足配对要求的前提下所提出的算法达到成对组数最大化. 展开更多
关键词 优化配对 矩阵运算 影响因子
下载PDF
研究生录取的优化模型 被引量:4
3
作者 徐豪华 董志明 +2 位作者 唐志武 潘高田 郭齐胜 《数学的实践与认识》 CSCD 北大核心 2005年第7期115-119,共5页
把研究生录取分解为师生间的评价问题和师生间配对最优化的问题.建立了师生相互评价的指标体系和量化评价指标的计算模型,以满意度计量评价结果,提出了相互满意度的概念,建立了使师生配对达到整体总满意度最大的整数规划优化模型.根据... 把研究生录取分解为师生间的评价问题和师生间配对最优化的问题.建立了师生相互评价的指标体系和量化评价指标的计算模型,以满意度计量评价结果,提出了相互满意度的概念,建立了使师生配对达到整体总满意度最大的整数规划优化模型.根据建立的模型,解决了具体的研究生录取问题.所建立的模型具有较强的实用性、可操作性和可扩展性. 展开更多
关键词 研究生录取 优化模型 相互满意度 评价模型 配对优化模型 整数规划
原文传递
Dual Power Allocation Optimization Based on Stackelberg Game in Heterogeneous Network with Hybrid Energy Supplies
4
作者 Shiyu Ji Liangrui Tang +1 位作者 Mengxi Zhang Shimo Du 《China Communications》 SCIE CSCD 2017年第10期84-94,共11页
In heterogeneous network with hybrid energy supplies including green energy and on-grid energy, it is imperative to increase the utilization of green energy as well as to improve the utilities of users and networks. A... In heterogeneous network with hybrid energy supplies including green energy and on-grid energy, it is imperative to increase the utilization of green energy as well as to improve the utilities of users and networks. As the difference of hybrid energy source in stability and economy, thus, this paper focuses on the network with hybrid energy source, and design the utility of each user in the hybrid energy source system from the perspective of stability, economy and environment pollution. A dual power allocation algorithm based on Stackelberg game to maximize the utilities of users and networks is proposed. In addition, an iteration method is proposed which enables all players to reach the Stackelberg equilibrium(SE). Simulation results validate that players can reach the SE and the utilities of users and networks can be maximization, and the green energy can be efficiently used. 展开更多
关键词 dual power allocation Stackelberg game heterogeneous network hybrid energy source
下载PDF
Evaluation of convective heat transfer in a tube based on local exergy destruction rate 被引量:3
5
作者 WANG JunBo LIU ZhiChun LIU Wei 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2016年第10期1494-1506,共13页
In this study, exergy efficiency is defined to evaluate convective heat transfer in a tube based on the local exergy destruction rate from the equilibrium equation of available potential. By calculating this destructi... In this study, exergy efficiency is defined to evaluate convective heat transfer in a tube based on the local exergy destruction rate from the equilibrium equation of available potential. By calculating this destruction rate, the local irreversibility of convective heat transfer can be evaluated quantitatively. The exergy efficiency and distribution of local exergy destruction rate for a smooth tube, an enhanced tube into which short-width twisted tape has been inserted, and an optimized tube with exergy destruction minimization are analyzed by solving the governing equations through a finite volume method(FVM). For the smooth tube, the exergy efficiency increases with increasing Reynolds number(Re) and decreases as the heat flux increases, whereas the Nusselt number(Nu) remains constant. For the enhanced tube, the exergy efficiency increases with increasing Reynolds number and increases as the short-width rate(w) increases. An analysis of the distribution of the local exergy destruction rate for a smooth tube shows that exergy destruction in the annular region between the core flow and tube wall is the highest. Furthermore, the exergy destruction for the enhanced and optimized tubes is reduced compared with that of the smooth tube. When the Reynolds number varies from 500 to 1750, the exergy efficiencies for the smooth, enhanced, and optimized tubes are in the ranges 0.367–0.485, 0.705–0.857, and 0.885–0.906, respectively. The results show that exergy efficiency is an effective evaluation criterion for convective heat transfer and the distribution of the local exergy destruction rate reveals the distribution of local irreversible loss. Disturbance in the core flow can reduce exergy destruction, and improve the exergy efficiency as well as heat transfer rate. Besides, optimization with exergy destruction minimization can provide effective guidance to improve the technology of heat transfer enhancement. 展开更多
关键词 convective heat transfer available potential exergy destruction rate exergy efficiency
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部