Herein , the effect of changes in the organic loading rate in anaerobic digestion was evaluated. The experiment was carried out by a laboratory -scale semi-continuous stirred tank reactor, and feedstock was food-waste leached. The organic loading rate was increased by 0.5 kgVS/m3 in each phase from 1.0 kgVS/m3 to 4.0 kgVS/m3. At the end of the operation, to check the failure of the reactor, the organic loading rate was increased by 1.0 kgVS/m3 in each phase and reached 6.0 kgVS/m3. This shows that the biogas yield decreased as organic loading rate increased. Biogas production seemed to be unstable at 3.5–6.0 kgVS/m3. Moreover, biogas production dramatically fell to approximately 0 mL at 6.0 kgVS/m3, which was decided as the operation failure on the 16th day of the las tphase. The result of the reactor analysis shows that the cumulation of volatile fatty acid increased as the organic loading rate increased. This seems to occur due to the decreasein pH in the reactor and led to extinction of anaerobic bacteria, which were the biogas products. Although the buffer compound (alkalinity) could prevent the decline in pH, the concentration of alkalinity was found to be lacking at a high organic loading rate

Abstract
1. 서 론
2. 재료 및 방법
    2.1. 원료 및 식종 슬러지
    2.2. 실험실 규모 반응기
3. 결과 및 고찰
    3.1. OLR에 따른 바이오가스 발생량
    3.2. VFA 및 Alk. 분석
4. 결 론
감사의 글
REFERENCES

• 정재훈(경기대학교 일반대학원 환경에너지공학과) | Jae-Hoon Jeung (Seung-Youn Yang2) Department of Environmental Engineering, Graduate school of Kyonggi university)
• 정우진(경기대학교 창의공과대학 환경에너지공학전공) | Woo-Jin Chung (Department of Environmental Engineering, Kyonggi university) Corresponding author
• 장순웅(경기대학교 창의공과대학 환경에너지공학전공) | Soon-Woong Chang (Department of Environmental Engineering, Kyonggi university)
• 김진태((주)파이브텍) | Jin-Tea Kim (Fivetek Co., Ltd)
• 정성엽((주)파이브텍) | Seong-Yeob Jeong (Fivetek Co., Ltd)
• 양승연((주)파이브텍) | Seung-Youn Yang (Fivetek Co., Ltd)