循环风量是全氢罩式退火炉的关键设计参数之一。
The gas flow rate is one of the key design parameters for HPH furnace.
通过建立全氢罩式退火炉炉内传热过程的数学模型,并经过实测验证后,分析了循环风量与退火时间的关系。
A mathematical model for heat transfer process in HPH furnace was established and verified, then applied to analysis of the relationship between gas flow rate and annealing time.
全氢罩式退火炉是具有世界先进水平的冷轧板卷退火设备,具有钢卷退火均匀、控制系统自动化程度高等特点。
All-hydrogen batch annealing furnace is the world's leading annealing equipment of Cold Rolled Coils. The system is characterized by uniform annealing coil and advanced automation.
并结合对钢卷导热方程和边界条件的离散求解,实现了钢卷温度场模拟计算的同时,获取了全氢炉退火过程的工艺制度。
Basing on the heat transfer mathematical models and the simulation system, the temperature fields of coils during annealing process have been calculated.
建立了以温度跟踪为目的的全氢罩式炉钢卷退火过程在线数学模型。
A on-line mathematical model for tracing coil temperature of the bell-type furnace is established based on the two-dimensional, axisymmetric, transient heat conduction equation.
结合退火工艺过程的分析,建立了全氢炉退火过程钢卷温度场模拟计算的逻辑体系。
Combining with the analysis of the annealing craft process, the simulation system for the calculation of the coil's temperature has been developed.
结合退火工艺过程的分析,建立了全氢炉退火过程钢卷温度场模拟计算的逻辑体系。
Combining with the analysis of the annealing craft process, the simulation system for the calculation of the coil's temperature has been developed.
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