The form of tea produced in Taiwan can be traced to the development of Taiwan’s tea industry. Before the 1970s, Taiwan's tea industry was mostly based on the production of commercial tea for export; after the 1970s, with the rapid economic development of Taiwan, wage costs increased, coupled with the appreciation of the Taiwan dollar, the competitiveness of Taiwan's tea export declined sharply and turned to domestic sales. Although the Chinese people are prevalent in drinking tea, but due to the influence of time in the industrial and commercial society, convenient tea drinking methods have gradually become popular, and the main consumption methods are brewed tea and beverage tea. Among them, tea beverages set an output value of NT$96.2 billion in 2018. Due to the low cost of the raw material tea, crude tea or sieved secondary tea is still used as the raw material. Crude tea is easy to absorb and absorb environmental odors, and the water content increases. In addition, when exposed to the air, it is easy to form oil consumption odor due to lipid oxidation (here in after referred to as aged-flavor), which completely conceals the original aroma of tea and forms to off-flavor tea. Usually in order to reduce the moisture in the tea, remove the peculiar smell or improve the aroma of the tea, the quality of the tea is modified by roasting. This study explores the changes in volatile and non-volatile content of crude tea with off-flavor (including environmental odor and oil consumption) under different temperatures and different times of roasting, and discusses its impact on the quality of tea. The Paochung vice tea with stale flavor for beverages is used in a hot-air circulation roasting machine, and the roasting temperature is set at: 80°C, 90°C, 100°C and 110°C for 1 hour, 4 hours, 8 hours and 12 hours respectively. After roasting, the tea leaves were analyzed for total polyphenols, total free amino acids, individual catechins, gallic acid, caffeine, and volatile compounds, and the tea sensory evaluation. After the off-flavored Poachung vice tea was treated with different roasting temperatures and durations, the changes in total polyphenols and caffeine content did not reach significant differences under different roasting temperatures and times. The total free amino acid content will decrease significantly as the roasting time increases and the temperature is higher. Since the amino acid is one of the raw materials for the Maillard reaction, the change in its content may be related to the roasting intensity. In individual catechins, (-)-Epigallocatechin (EGC) and (-)-Epicatechin (EC) content changes, treated at different roasting temperatures There is a significant difference between them. After long-time roasting, the higher the temperature, the more the content drops. (+)-Catechin (C) content changes, under high temperature roasting, the longer the time the content increases. Changes in the content of (–)-gallocatechin-3-gallate (GCG) and Epicatechin-3-gallate (ECG). Regardless of whether the roasting temperature is low or high, the content of both will decrease significantly within 1 hour, and the roasting time will be extended afterwards, and the content will not change much. (–)-Epigallocatechin-3-gallate (EGCG) has a large and significant downward trend under high temperature and long time. There is no significant difference between the content of caffeine and gallic acid. Using GC-MS to analyze the off-flavored Paochung vice tea after different roasting temperature and time, 50 identifiable volatile compounds can be obtained. The identifiable ones detected in the off-flavored Paochung vice tea before roasting There are 20 kinds of substances, most of which are alcohols, aldehydes and ketones, a small part of linalool oxides; among them, 1-Penten-3-ol, 2-Penten-1-ol, Hexanal, 3-Hexen-1-ol, 3,4-dimethyl-2,5-Furandione, and Ethyl 2-(5- Methyl-5-vinyltetrahydrofuran-2-yl)propan-2-yl carbonate is usually found in lower-grade green tea and is a relatively negative volatile substance; Benzaldehyde has a special almond flavor; Hexanal has a pungent grassy taste, both of which are negative volatile substances that are easily found in aged black tea. After the aged side tea is roasted at different temperatures and times, about 23 compounds with obvious odor descriptions can be detected, which are relatively negative volatile substances such as: Propanoic acid, Dodecane and Tetradecane, it has a rotten, unrefreshing oily smell; 2-Hexenal, 4-Heptenal, and Heptanal have smell of grass or oil, etc., roughly decreases with the extension of baking time and temperature; D-Limonene, Benzenemethanol, (+)-2-Bornanone and (E)-.beta.-Farnesene, etc., have positive volatile substances will increase; furan-like aromatic compounds (with the aroma of smoke and cinnamon) will increase significantly. The results of the sensory evaluation showed that the higher the baking temperature and the longer the baking time of the aroma part, the lower the degree of peculiar smell perception, the increased perception of roasting aroma and the improvement of the overall aroma quality; the taste part, the perception of bitterness and different baking There is no significant difference in temperature and time treatment; the perception of astringency tends to decrease with the higher the baking temperature; the perception of sweetness and the overall taste preference are significantly different from different baking temperatures and baking time treatments, baking The increase in temperature and the longer baking time contribute to the overall taste improvement.