An apple wine was prepared by fermentation at $25^{circ}C$ for 2 weeks using Saccha개myces cerevisiae KCCM 12224, followed by aging at $15^{circ}C$ for 14 weeks, and its physicochemical and microbiological changes were investigated. The viable bacterial cell numbers, increased from $1.4{ imes}10^3;CFU/ml$ at the beginning of fermentation, to $2.8{ imes}10^6;CFU/ml$ after 2 weeks, but decreased to $1.0{ imes}10^5;CFU/ml$ after aging. The viable yeast cell numbers changed from $4.3{ imes}10^4;CFU/ml$ to $1.2{ imes}10^7;CFU/ml$ during the fermentation, and decreased to $1.2{ imes}10^4;CFU/ml$ after aging. Sugar content changed from $20.0^{circ}Brix$ to $8.5{circ}Brix$, and reducing sugar content was changed from 9.66% to 6.44%. Alcohol content and acidity increased to 7.0% and from 0.19% to 0.24%, respectively. No changes in acidity, pH, and sugar content were observed during the aging, but reducing sugar and solid contents decreased. When apple wine was fultered through $0.45;{mu}m$ nitrocellulose membrane followed by various ultrafiltration membranes with different molecular weight cut-off values, the initial flux $(121.2;liter/m^2/h)$ and the average flux of Biomax 100k membrane were the highest among the membranes used. These membrane filtration treatments resulted in complete removal of microorganisms as well as decrease in turbidity and solid content without changes in other chemical properties. No changes in the physicochemical properties of the apple wine and no microorganisms were detected during the storage at $156{circ}C$ for 6 weeks.