气雾化参数对304不锈钢3D打印专用粉末粒径的影响

为了研究采用EIGA法制备304不锈钢3D打印专用粉末过程中加热功率、进给速度和气雾化压力对粉末粒径的影响,利用JIGA-2型真空气雾化制粉设备进行了工艺试验.结果表明,加热功率对该合金粉末粒径的影响不大,而提高气雾化压力能够显著提高细粉收得率,进给速度与加热功率的匹配性是影响该合金粉末球形度的重要因素.304不锈钢3D打印专用粉末的最佳制备工艺参数为:加热功率30 kW,气液流量比0.6,气雾化压力6 MPa,此时细粉收得率约为35%~40%,粉末形貌为球形,且表面光滑未出现凹坑现象.

Waste heat recovery and denitrification of flue gases from gas-fired boilers

A waste heat recovery and denitrification system was developed for improving energy conservation and emissions control especially for control of PM2.5 particles and haze. The system uses enhanced heat and mass transfer techniques in a packed heat exchange tower with self-rotation and zero-pressure spraying, low temperature NO oxidation by ozone, and neutralization with an alkali solution. Operating data in a test project gave NOx in the exhaust flue gas of less than 30 mg/Nm3 with an ozone addition rate of 8 kg/h and spray water p H of 7.5–8, an average heat recovery of 3 MW, and an average heat supply of 7.2 MW.