Abstract: A novel matrix was developed for fermentation to produce L-lactic acid by Rhizopus oryzae at shaker-level. Fungal mycelia were immobilized on the matrices to study the fermentation conditions and process stability. During the seed culture process，all the spores were adsorbed after only 5 h，biomass concentration was up to 6.8g/L after 24 h. Under optimized conditions using three matrices at 33 ℃ and 180 r/min with volume ratio of 20% by adding CaCO3 in time，L-lactic acid was obtained after 48 h fermentation with concentration of 50.00 g/L in 65.0% yield and the productivity was 1.0 g/(L·h). Compared with cell-free fermentation，the concentration of L-lactic acid，the yield and the productivity increased by 79%，250% and 150%，respectively，and the fermentation period decreased by 24 h. The process of immobilized fermentation showed good stability in seven repeated batches.