Abas Sato scite author profile

Abstract- One of the most widely used processes for CO2 gas removal is Absorption. Carbon dioxide is the result of the fuel combustion process which of the hazardous gases. The aim of this research is to determine the total mass transfer coefficient and analyze the effect of the absorbent flow rate of the absorbent solution with the promoter and the gas flow rate to the total mass transfer coefficient value. The variables consisted of liquid flow rate: 1, 2, 3, 4, 5 liter/min, gas flow rate: 15, 25, 30, 40, 50 liter/min and MSG concentration: 0%, 1%, 3% and 5% by weight. The solution of Pottasium Carbonate as absorbent with MSG promoter is flowed through top column and CO2 gas flowed from bottom packed column. Liquids were analyzed by titration and the gas output was analyzed by GC. From this research, it is found that the flow rate of gas and the liquid flow rate is directly proportional to the value of KGa. The liquid flow rate variable 5 liters / minute, gas flow rate 15 l / min obtained value of KGa 11,1102 at concentration of MSG 5%. Keywords: Absorption, CO2, K2CO3, MSG.

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Influence of alkaline addition on the composition and yield on the hydrothermal treatment of rice straw

Sato

Widjaja

Asror

et al. 2019

Mal. J. Fund. Appl. Sci.

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Agricultural waste is abundantly available in Indonesia, including rice straw. The largest components of rice straw are cellulose, hemicellulose, and lignin, making this material good enough as raw material for production of biogas, bioethanol, and other renewable fuels. The bonds in the cellulose and lignin in rice straw are strong and difficult to degrade which consequently will block the microorganisms to degrade them. In this study, a hydrothermal treatment was performed with the addition of NaOH. The purpose of this study was to investigate the effect of alkaline hydrothermal treatment on rice straw delignification, cellulose and hemicellulose solubility, the formation of reducing and furfural sugars, as well as the degrees of cellulose crystallinity. The variables used were NaOH concentration of 3%, 5%, and 7% (w/w total solid) and temperature were 100 ℃, 120 ℃, and 140 ℃. Treatment was performed using an autoclave with water and rice straw ratio of 8:1 with heating time for 2 hours. The results of this study showed that hydrothermal and NaOH treatment can increase rice straw organic degradation as indicated by increasing delignification of rice straw and increased levels of watersoluble sugars. The higher the temperature and the NaOH concentration, the more lignin and soluble hemicellulose content. Meanwhile, the reducing sugar increases with increasing temperature and NaOH concentration. Thermal decomposition rate has also occurred at lower temperature. It was found that the highest organic rice straw degradation occurs at higher temperature and NaOH concentration.

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Abas Sato

Ratio Molar Minyak Sawit Dengan Etanol Konsentrasi Rendah Dalam Pembuatan Biodiesel

Total Volumetric Mass Transfer Coefficient at Co2 Gas Absorption Using K2co3 by MSG Promoter

Influence of alkaline addition on the composition and yield on the hydrothermal treatment of rice straw

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