| Summary: | <p class="Els-Abstract-text">Rice husk is a major by-product of the rice milling industries. Rice husk is one of the most common lignocellulosic materials those can be converted to oxalic acid by alkaline hydrolysis. This research investigated the effect of the alkaline catalysts at specified temperature and reaction time on the efficiency of process and yield of oxalic acid. Oxalic acid was produced by four processes; alkaline hydrolysis, precipitation, acidification, and crystalization. Washed and dryed rice husk was crushed to obtain 0.25 mm diameterl particles. The main process was performed by dissolving and hydrolyzing 125 grams of rice husk in 500 mL of 3.5 N NaOH and Ca(OH)<sub>2</sub>. Rice husk, which hydrolyzed by NaOH, was precipated with CaCl<sub>2 </sub>before acidification, whereas rice husk, which hydrolyzed by Ca(OH)<sub>2</sub> directly acidified by sulphuric acid without precipitation process<span>. </span>Furthermore, water in acidified solution was evaporated to obtain crystal of oxalic acid. The result showed the alkaline catalyst Ca(OH)<sub>2</sub> was more eficient than NaOH for hydrolysis. It omitted precipitation process. The highest yield of oxalic acid which produced by Ca(OH)<sub>2</sub> catalyzed hydrolysis was 2.232% at 60<sup>o</sup>C for 60 minutes<span lang="IN">.</span></p>
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