| 1. | Optimal setting model of reheat furnace temperature
加热炉的炉温优化设定模型 |
| 2. | Pipe furnace temperature control system based on epa
炉温监控系统开发 |
| 3. | Soft - sensing system of gasification furnace temperature based on chaos - rbf neural network
神经网络的气化炉温度软测量系统 |
| 4. | On - line fuzzy decision based on mechanism modeling for reheating furnace temperature
基于机理模型的加热炉在线炉温模糊决策 |
| 5. | Foundation of black body furnace temperature time series prediction model based on bpnn
神经网络的黑体炉温度时序预测模型的建立 |
| 6. | Crude oil heating furnace temperature controller based on fuzzy control and expert system
基于模糊控制和专家系统的原油加热炉温度控制器 |
| 7. | To have convection heating device , furnace temperature is more uniform at low temperature state
配置对流加热装置,低温状态下炉温更加均匀。 |
| 8. | Fuzzy predictive functional control strategy for decomposing furnace temperature system of cement rotary kiln
模糊预测函数控制在水泥回转窑分解炉温控系统中的应用研究 |
| 9. | Figure 1 shows the recommended watt loading for a square inch or square centimeter of radiating surface as a function of furnace temperature
图1中指出了每平方英寸或者是每平方厘米辐射面积所能负荷的理想能量和熔炉温度的函数关系。 |
| 10. | The amount of energy that a is capable of converting from electrical to heat energy depends on the ambient furnace temperature and atmosphere in which it is operating
熔炉内电能转化为热能的能量数主要依赖于硅碳棒载炉内的控制温度和气体环境。 |
