| 1. | Study on configuration in hot blast stove with high blast temperature
高风温热风炉结构探讨 |
| 2. | Provides substantial protection against blast temperatures generated by certain types of anti - personnel landmines
对某些步兵雷产生的高温气浪提供有效防护。 |
| 3. | Application of coating in hot stoves of 350m ^ 3 bf indicated that the coating makes the blast temperature increase 57
350立方公尺高炉热风炉采用涂层后,热风温度提高了57 。 |
| 4. | The top - firing air and gas self - preheating hot blast stove adopts a patented burner and high blast temperature bypass flue
摘要顶燃式空气、煤气自身双预热热风炉采用了顶燃式燃烧器热风炉专利的燃烧器技术和高温旁通烟道技术。 |
| 5. | The specially woven fabric can provide a significant degree of protection against blast temperatures generated by certain common types of anti - personnel landmines
特殊织物可提供极大保护,防止由某些常见步兵雷爆炸产生的气浪灼伤。 |
| 6. | A new technology for improving hot blast temperature and decreasing fuel consumption with high emissivity coating on the regenerator of blast furnace ( bf ) hot stove were introduced
摘要介绍一种可以进一步提高热风炉热风温度,降低燃料消耗的新技术。 |
| 7. | This hot blast stove has following features : the highest temperature of flue gas in general flue reaches 600 ; the air and gas are preheated to 300 ; the hot blast temperature is over 1200 ; the flue gas temperature is below 180
使用该热风炉后所取得的效果是:总烟道内综合排烟温度可达600 ;可将空气、煤气预热到300 ;以单一高炉煤气为燃料时,热风温度可达1200以上;烟气经过空气、煤气换热器后温度低于180 。 |
| 8. | Theoretical analysis and experimental results showed that the high emissivity coating speeds up the heat - absorption and heat release process , strengthens heat transfer by radiation and heat conduction in the regenerator , improves heat transfer efficiency and the blast temperature
理论分析和实验结果表明,热风炉蓄热体表面高发射率涂层可以提高蓄热体的蓄热和放热能力,强化炉内辐射传热和蓄热体的导热,从而提高热风温度。 |
| 9. | Eight of input and state variables of blast furnace , i . e . silicon content , irregular coke charge , coal injection , blast pressure , blast temperature , blast volume , batch of charge in a tapping period , ratio of ore - to - coke in charge , are considered as input of prediction model
采用天津铁厂1 #高炉的[ si ]含量、铁间料批数、热风压力、实际喷煤量、冷风流量、热风温度、净焦加入量、焦炭负荷等8个影响因素作为预测模型的主要输入变量。 |
| 10. | Applying fuzzy control theory , the prediction of coke rate based on blast temperature , blast temperature and coal injection rate is respectively discussed in the paper . actual production data were used to conduct the model calculations . the research showed that the predicted results were in good accordance with actual ones
运用模糊控制理论探讨了根据风温预报焦比以及风温、喷煤预报焦比的问题,利用某厂实际生产数据进行仿真实验得到了较好的预报效果。 |
