钍基熔盐堆(Thorium Molten Salt Reactor-Liquid Fuel,TMSR-LF1)回路管道最高运行温度达650℃,高温服役下的管道蠕变-疲劳损伤分析及评定至关重要。目前仅ASME-BPVC-III-5-HBB规范中有适用于高温核一级管道的蠕变-疲劳损伤暂行评定方法...钍基熔盐堆(Thorium Molten Salt Reactor-Liquid Fuel,TMSR-LF1)回路管道最高运行温度达650℃,高温服役下的管道蠕变-疲劳损伤分析及评定至关重要。目前仅ASME-BPVC-III-5-HBB规范中有适用于高温核一级管道的蠕变-疲劳损伤暂行评定方法,但该方法对于复杂管道系统使用起来过于繁琐。本文旨在使用管道分析软件PepS软件实现高温核一级复杂管系的分析与结构完整性评估。首先结合管道结构在多种载荷组合作用下的截面应力状态解析解,进行管道截面应力分析及应力线性化,并将结果与有限元数值解进行对比分析,两者的误差结果基本一致。随后,利用PepS软件对TMSR-LF1回路管道进行了力学分析和结构完整性评估,结其蠕变疲劳损伤结果位于包络线以内,满足蠕变疲劳极限的要求。该研究将管道分析软件与ASME评定规范进行了有效衔接,明确了评定方法,实现了高温核一级复杂管系的蠕变疲劳评估。展开更多
针对汽车无钥匙系统中电源分配模块(PDM,Power Distribution Module)控制系统要求,基于MATLAB/Simulink建立了电源分配控制算法模型,并通过离线仿真对其控制算法的可行性进行了验证。同时,利用Targetlink软件完成了自动代码生成,并与专...针对汽车无钥匙系统中电源分配模块(PDM,Power Distribution Module)控制系统要求,基于MATLAB/Simulink建立了电源分配控制算法模型,并通过离线仿真对其控制算法的可行性进行了验证。同时,利用Targetlink软件完成了自动代码生成,并与专家(PE,Processor Expert)模式下生成的底层代码相融合,将其下载到控制器中进行了硬件在环验证,较手工代码而言,提高了开发效率。最后,利用Control Desk软件设计出测试系统界面,测试表明,PDM满足无钥匙系统要求。展开更多
The Advanced Modern 600 MWe (AM600) project represents the conceptual mechanical design and layout of a Nuclear Power Plant (NPP) Turbine Island intended to address challenges associated with emerging markets interest...The Advanced Modern 600 MWe (AM600) project represents the conceptual mechanical design and layout of a Nuclear Power Plant (NPP) Turbine Island intended to address challenges associated with emerging markets interested in nuclear power. The biggest challenge relates to project financing and the subsidiary issue of maintaining the construction schedule. To address that challenge in part, the AM600 is designed with a single cylinder low pressure turbine rotor matched to a condenser module. The module integrates all low pressure Feedwater Heaters (FWHs) into the condenser neck. This study investigates the design and sizing of a single string of FWHs to demonstrate proof-of-concept of the AM600 design. Specifically, the condenser is designed as a factory fabricated module which includes the installed low pressure FWHs along with major piping and valving. The analysis and design summarized here demonstrate that using industry standards and guidelines, along with accepted engineering practices, the AM600 can accommodate a modular condenser design while allowing for continued operation with an FWH Out-of-Service (OOS).展开更多
文摘钍基熔盐堆(Thorium Molten Salt Reactor-Liquid Fuel,TMSR-LF1)回路管道最高运行温度达650℃,高温服役下的管道蠕变-疲劳损伤分析及评定至关重要。目前仅ASME-BPVC-III-5-HBB规范中有适用于高温核一级管道的蠕变-疲劳损伤暂行评定方法,但该方法对于复杂管道系统使用起来过于繁琐。本文旨在使用管道分析软件PepS软件实现高温核一级复杂管系的分析与结构完整性评估。首先结合管道结构在多种载荷组合作用下的截面应力状态解析解,进行管道截面应力分析及应力线性化,并将结果与有限元数值解进行对比分析,两者的误差结果基本一致。随后,利用PepS软件对TMSR-LF1回路管道进行了力学分析和结构完整性评估,结其蠕变疲劳损伤结果位于包络线以内,满足蠕变疲劳极限的要求。该研究将管道分析软件与ASME评定规范进行了有效衔接,明确了评定方法,实现了高温核一级复杂管系的蠕变疲劳评估。
文摘针对汽车无钥匙系统中电源分配模块(PDM,Power Distribution Module)控制系统要求,基于MATLAB/Simulink建立了电源分配控制算法模型,并通过离线仿真对其控制算法的可行性进行了验证。同时,利用Targetlink软件完成了自动代码生成,并与专家(PE,Processor Expert)模式下生成的底层代码相融合,将其下载到控制器中进行了硬件在环验证,较手工代码而言,提高了开发效率。最后,利用Control Desk软件设计出测试系统界面,测试表明,PDM满足无钥匙系统要求。
文摘The Advanced Modern 600 MWe (AM600) project represents the conceptual mechanical design and layout of a Nuclear Power Plant (NPP) Turbine Island intended to address challenges associated with emerging markets interested in nuclear power. The biggest challenge relates to project financing and the subsidiary issue of maintaining the construction schedule. To address that challenge in part, the AM600 is designed with a single cylinder low pressure turbine rotor matched to a condenser module. The module integrates all low pressure Feedwater Heaters (FWHs) into the condenser neck. This study investigates the design and sizing of a single string of FWHs to demonstrate proof-of-concept of the AM600 design. Specifically, the condenser is designed as a factory fabricated module which includes the installed low pressure FWHs along with major piping and valving. The analysis and design summarized here demonstrate that using industry standards and guidelines, along with accepted engineering practices, the AM600 can accommodate a modular condenser design while allowing for continued operation with an FWH Out-of-Service (OOS).
文摘针对基于智能手机的汽车无钥匙进入和启动系统(PEPS)车内外高精度辨识技术需求,设计基于双终端的差分K近邻定位算法.通过改进的Dempster-Shafer证据理论,将双终端算法与典型单终端算法的辨识结果进行融合,提升识别算法的鲁棒性与准确性.与传统的K近邻和概率分布法相比,融合算法在实验场景中对终端车内外状态的辨识准确率提升10%.在传统定位算法易出现误判的车窗附近范围内,将误差距离从距车窗20 cm缩小到距车窗5 cm.