Changing water is a demanding task in high-density rotifer culture. This study develops a zooplankton filter for high density rotifer continuous production. The zooplankton filter has a rotating drum which is covered by a plankton screen and driven by a motor. One-third of the rotating drum is submerged into the water. A small pump inside the drum pumps water out of the drum. The rotation of the drum produces a shearing force between the plankton screen and the surrounding water making the screen self-clean. This could not only avoid the rotifers being attached onto the screen, but also could reduce injuries of rotifers in the water changing process. The optimal rotation speeds of the drum were determined by experiment for different rotifer densities and water changing rates. The effects of rotifer density and the length of water changing time to rotifer survival rate and egg-carrying ratio were studied. Two high density rotifer production tests were then carried out. The culture volume is 100 L were fed which concentrated freshwater chlorella (Chlorella vulgaris). Water was changed 1-4 times by the zooplankton filter, each time changing 60% of water in volume per day. The rotifer density was approximately 600 ind./ml in the beginning of each test. Harvesting started after a week, daily harvested volume is 20%. The rotifer densities at harvest at 6,569 in the first test, and 6,638 in the second test. The average harvests were 1.31 × 108 and 1.33 × 108 rotifers, respectively. The growth rates were 0.252/day and 0.234/day, respectively. Ammonia-nitrogen (NH3-N) ranged between 1.05-8.5 mg/L and 1.1-10 mg/L, respectively. Microalgae in the water usually was fully consumed by the rotifer before harvesting times, thus minimizing waste. No protozoan blooming was observed in both tests, presumable due to the manual removing of the sediment after each harvest. This high-density rotifer production system is simple, inexpensive, and requires little prior effort to start. Thus, it is suitable for those who have immediate demand for rotifers and for the mass production of rotifers in commercial operations as well. The zooplankton filter system also has the potential to apply to other live food and crustacean larvae production.