Torrefaction of waste bamboo chopsticks (WBCs) for producing solid biofuel, i.e., torrefied WBC (WBCT), liquid, and gas products was investigated in this study. The goal was set to have WBCT retaining about 70 wt.% mass while raising the high heating value in dry basis (HHD) to around 5500 kcal kg-1 from original WBC. Proper torrefaction reaction temperature (Tr) and detention time (tr) were found at 563 K and 40 min for carrying out the torrefaction in a tubular furnace with carrier nitrogen. The comparison between WBC and WBCT were characterized by proximate, ultimate, and heating value analyses. The said proper conditions gave mass yield (YM) of 69 wt.% of WBCT relative to original WBC. The HHD of WBC was enhanced from 4615.86 to 5506.80 kcal kg-1 while the energy densification factor (ED) increased to 1.19 of WBCT. The results thus deduce that torrefaction process is advantageous to upgrade WBC to high energy containing solid biofuel. The difference of properties between Moso bamboo and WBC were assessed. Although the upgraded WBCT is the primary demand of torrefaction, this study also explored whether some useful components would be formed in liquid and gas products. The liquid products compose of water as high as 62 wt.% along with some organic acids. Some medicine components were also found in liquid products with potential medicine applications. During torrefaction, the gaseous pollutants of CO, NOX, SO2, and CO2 were largely discharged from 10 to 20 min of detention time. O2, CO2, and H2O are the major compounds in the total gas products collected. Some combustible gases of C1 to C6 hydrocarbons were also produced. Moreover, carbon and gas volume balances were computed and evaluated.