Traditional methods of producing bacterial cellulose (BC) membranes include batch, static cultivation, which require complex operating procedures because of the repeated preculture and cleaning steps. Also the size of cellulose membranes produced depends on the reactor. Continuous cultivation could improve these disadvantages. This study designed a continuous culture reactor with a roller to collect the produced cellulose membranes, a ramp to improve the connection beween two membranes and a holding box so that the membranes just produced can be washed immediately. The continuous operation used BSH medium and repeated every 4 days as a cycle. It was found that adding 50ml fresh medium in each cycle gave the best yield. Also, controlling the residual medium at 20ml remaining after each cycle as the bacteria source of next cycle gave highest production. Good BC production was obtained when BSH medium with glucose concentration 80g/L was used during the 28days cultivation, but the yield decreased with increasing glucose concentration. The continuous operation’s results showed that the first two cycles had different behaviors from other cycles. So it was difficult to predict the results of continuous cultivation based on results of batch cultivation. It was because of the difference of initial cell concentration and medium composition between the first two cycles and the others. It was found that adding certain concentration of gluconic acid during batch cultivation could result in similar results as continuous cultivation. The average amounts of BC produced per day by continuous mothod was 2 to 7 times higher than tradition batch cultivation. Contiunous cultivation also reduced the operating cost due to avoiding repeated preculture and cleaning steps.