| 1. | Experiment study of packed saturator in hat cycles
循环中加填料饱和器的实验研究 |
| 2. | General study on saturator in hat cycle
循环关键部件饱和器研究概况 |
| 3. | Mathematical model of thermodynamic process for saturator of humid airbine
饱和器热力过程数学模型 |
| 4. | Thermodynamic model and experimental study of saturator in hat cycle
循环饱和器数学模型及实验研究 |
| 5. | Experimental research on spray field in saturator by phase doppler analyzer
模型饱和器冷态喷雾场的实验研究 |
| 6. | Experimental study of a humidifying process in a counter - flow spray saturator
逆流喷雾式饱和器内湿化过程的实验研究 |
| 7. | Experimental study on two - phase velocity field in counter - flow spray saturator
逆流喷雾式饱和器内两相速度场的实验研究 |
| 8. | Experimental study on liquid phase in saturator with phase doppler analyzer
利用相位多普勒分析仪对饱和器冷态液相的实验研究 |
| 9. | The humidity air turbine ( hat ) is one of the thermodynamic systems , which have features of high efficiency , low cost and low emissions because of the addition of water into the compressed air . the operating temperature may be up 250 and the pressure may be higher than 5mpa in key components ( the saturator ) of hat
近年来出现的湿空气透平( hat )就是这种高效环保的循环系统,在它的关键部件? ?饱和器中,湿空气的温度达到250oc ,压力可能高于5mpa ,同时压缩空气储能系统( caes )这一高效储能系统要求工质(湿空气)压力达到15mpa 。 |
| 10. | This dissertation creatively proposed that the latent heat can be utilized to preheat the water entering the saturator to improve its humidification ability . and on this basis , this dissertation has investigated and disclosed the elementary characteristics and orderliness of the new system
本文首次提出把这一部分释放的潜热用来加热湿化器用水,以进一步提高湿化能力的新构思,在此基础上开拓出新颖外燃式湿空气透平循环,并探索研究了利用潜热来提高加湿能力的efhat新颖系统的特性规律。 |
