In this study, we evaluated optimal conditions for ethanol production of the spruce hydrolysate (SH) obtained from diethyl oxalate pretreatment. Fermentable sugar concentration in SH was 29.04 g/${ell}$ except arabinose. Monosaccharides obtained from the oligomer degradation were mainly mannose (39.26 g/${ell}$) and galactose (12.83 g/${ell}$). Concentration of 5-HMF and furfural which are inhibitors on ethanol fermentation were 0.09 g/${ell}$ and 0.04 g/${ell}$ respectively. Concentration of acetic acid and total phenolic compounds in SH were 1.4 g/${ell}$ and 2.83 g/${ell}$. Ethanol production using hydrolysate was 11.7 g/${ell}$ at optimal pH 6.0 after 48 h. Specific ethanol production was 0.15 (g/(${ell}^*h$)) at pH 5.0 and 5.5. while that was 0.24 (g/(${ell}^*h$)) at pH 6.0. Specific ethanol production has difference depend on initial pH for fermentation. Ethanol production was 14.3 g/${ell}$ after 48 h when xylanase 20 IU was added in SH for degradation of oligomer during fermentation. It implied that ethanol production increased by 22.2% compare with control (without xylanase).