Green Energy from Palm Kernel Shell Gasification – dual fuel engine performance analysis

Equilibrium Journal of Chemical Engineering Pub Date : 2024-04-23 DOI:10.20961/equilibrium.v8i1.83497

Firman Asto Putro, S. H. Pranolo, Joko Waluyo, Dwi Hantoko, Agapeano Aditama, Mochamad Wahyu Utomo

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Abstract

Electricity generation in Indonesia is mainly generated from non-renewable fuels. Based on these problems, this research utilizes palm kernel shells to be converted into producer gas as secondary fuel for a 5 kW diesel engine. Through a gasification process equipped with a cooling and gas cleaning system, low tar gas is fed to the diesel engine with variations of gas flow rate ratio to combustion air. A dummy load is installed to investigate the effect of load on diesel consumption. The diesel engine vibration increases due to using two fuel types was measured by installing a vibration meter. The research results show that the higher the load and the greater the ratio of producer gas injected, the less diesel consumption. At a gas ratio of 4:1 and an increase of load from 1 to 5 kW, the diesel fuel flow rate reduces by 25 - 31%. The most significant reduction in diesel consumption occurred at a load of 5 kW, valued at 38.49%. On the other hand, increasing the gas ratio causes an increase in diesel engine vibration. The research results showed an increase in engine vibration of 5.84% - 10.25%. The largest vibration was recorded at a load of 5 kW with a value of 92.4 m/s2

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棕榈仁壳气化产生的绿色能源--双燃料发动机性能分析

印度尼西亚的发电主要来自不可再生燃料。基于这些问题，本研究利用棕榈核壳转化为生产气体，作为 5 千瓦柴油发动机的二次燃料。通过配备冷却和气体净化系统的气化过程，低焦油气体被输送到柴油发动机，气体流量与助燃空气的比率随之变化。为了研究负载对柴油消耗量的影响，安装了一个假负载。通过安装振动计，测量了使用两种燃料导致的柴油机振动增加。研究结果表明，负荷越高，喷射的生产气体比例越大，柴油消耗量就越少。当燃气比例为 4:1 且负载从 1 千瓦增加到 5 千瓦时，柴油流量减少了 25 - 31%。负荷为 5 千瓦时，柴油消耗量的降幅最大，达到 38.49%。另一方面，增加燃气比会导致柴油发动机振动加剧。研究结果显示，发动机振动增加了 5.84% - 10.25%。负载为 5 千瓦时的振动最大，为 92.4 m/s2

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Equilibrium Journal of Chemical Engineering

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