Acetaldehyde (ethanol, CHCHO, CAS # 75-07-0) is a metabolite of ethanol which occurs in the human body after the consumption of alcoholic beverages. Additionally, it is widely exists in foods, beverages and industry as well as in the environment. It is known as a carcinogenic substance. In 2012, International Agency for Research on Cancer (IARC) listed acetaldehyde in alcoholic beverages as a Class 1 carcinogen. Foreign research has already assessed the risk of acetaldehyde in many kinds of alcoholic beverages included beer, wine, whiskey, brandy and other common alcohols. However, there is no research on risk assessment for Chinese liquor at present. We simulated the production process of sorghum liquor to predict the amount of acetaldehyde in the final product, and then evaluate the health risk for domestic men, women and all citizens who exposure to acetaldehyde due to drinking sorghum liquor. According to the results from this study, we knew the predicted concentration of acetaldehyde after the end of the three stages of fermentation, distillation and aging is 72、295、471 mg/L respectively. In addition, we used Latin Hypercube Sampling (LHS) method and Partial ranked correlation coefficient (PRCC) to perform sensitivity analysis to know the influence of each manufacturing parameter. On the other hand, we used the results from chronic animal experiment in Sprague-Dawley rats for a period of 104 weeks to establish dose-response relationship and obtain the baseline dose 10% lower limit (BMDL10). After adjusting the body weight, BMDL10 is 16.91 mg/kg/day. The risk exposed acetaldehyde due to consume sorghum liquor is evaluated by using the Crystal Ball software to perform 50,000 Monte Carlo sampling of each parameter to calculate the cancer risk and margin of exposure (MOE).The median of cancer risk and MOE for all citizens drinking sorghum liquor are 5.35×10-3 and 18.5, respectively. The result indicated that adverse health effects from exposure through consuming sorghum liquor requires attention. The study also analyzed the sensitivity of cancer risk and MOE, and find that the most influential factor is the intake of sorghum liquor, which was positively correlated with cancer risk, but negatively with MOE, both influence accounts for about 94%. This study hopes to establish a method for predicting the concentration of specific hazardous substances in the final product before production and conduct the risk assessment to provide the industry a reference for process improvement and consumer purchase.