Gasification process at updraft gasifier produces greater amount of tar than other type of gasifier. To reduce tar at updraft gasifier, the pirolysis gas will be re-circulated to combustion zone and to exhaust gas from reduction zone. Recirculation of pirolysis gas to combustion zone can be carried out by using ejector. Ejector is an equipment used to inject the secondary fluid flow by the movement of momentum and energy from high speed primary flow (jet). The research conducted with isothermal 3D simulation using CFD and experimental investigation of recirculation flow using ejector at updraft gasifier. Ejector velocity for simulation and experimentation is constant at 0.6 m/s. Ejector’s nozzle exit position (NXP) direction will be varied. The goal of this research is to obtain information of optimal nozzle exit position for producing maximum velocity of gas recirculation. The result of simulation and experiment shows that the change of nozzle exit position direction to – x axis from zero point, it will give maximum velocity of gas recirculation flow with the optimum position of nozzle exit position at the range of -3 to -4 cm from zero point.
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机译:上流式气化炉的气化过程比其他类型的气化炉产生更多的焦油。为了减少上流式气化炉中的焦油,将裂解气再循环到燃烧区并从还原区排出。可以通过喷射器将松解气再循环至燃烧区。喷射器是一种用于通过高速主流量(射流)的动量和能量运动来注入辅助流体的设备。该研究使用CFD等温3D模拟进行,并在上流式气化炉中使用喷射器对再循环流进行了实验研究。用于仿真和实验的喷射器速度恒定为0.6 m / s。喷射器的喷嘴出口位置(NXP)方向将有所不同。这项研究的目的是获得最佳喷嘴出口位置的信息,以产生最大的气体再循环速度。仿真和实验结果表明,喷嘴出口位置方向从零点向– x轴方向变化,在喷嘴出口位置的最佳位置为-3至-4 cm的范围内,将给出最大的气体再循环流速。从零开始
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