Effect of Organic Loading Rate and Hydralic Retention Time on the Volatile Fatty Acid Production in 2- Step Anaerobic Fermentation System of Swine Wastes

돈분의 2단계 혐기발효시 산생성 단계에서의 유기물 부하율과 체류시간에 따른 휘발성지방산의 생산량

  • 김범석 (건국대학교 축산대학 영양자원전공) ;
  • 이상락 (건국대학교 축산대학 영양자원전공) ;
  • 맹원재 (건국대학교 축산대학 영양자원전공)
  • Published : 1998.12.01

Abstract

It is known that the anaerobic fermentation of organic matter (OM) is divided into 2 phases, acidogenic phase in which OM is digested into volatile fatty acid (VFA), and methanogenic phase where the produced VFA is converted to CH4 and CO2. In a natural fermenting procedure, these 2 phases occur at the same time. However the total production of end products (methane) may be limited if these 2 phases occur at the same time. This is believed to be due to the difference in growth rate, substrate-utilizing efficiency and favorable environment for each microbes (acidogens and methanogens), involved in each phase. It is therefore suggested for the maximum recycling of organic waste (such as animal waste) through providing 2 different steps in fermenting procedure, acidogenic phase and methanogenic phase, in each case the activity of involved microbes can be maintained at the maximum level. The results obtained from these experiments are summarized as follows : The loading rates of swine waste were made through 2.5, 5 and 10 gVS / l / d to identify its acidogenic fermenting character in this study. The VFA yield was maximized at 10 gVS / l / d of loading rate. On the basis of this study was executed to identify the optimum HRT of 1, 2 and 4 days at 10 gVS / l / d of loading rate in acidogenic phase. The maximum VFA yield was obtained at 1 days of HRT.

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