Production of Pellet Fertilizer from the Sludge of Thermophilic Aerobic Oxidation System End Its Effects on the Growth of Chinese cabbage and Soil Properties

고온 호기성 산화 시스템의 슬러지로부터 펠렛 비료의 생산과 Chinese cabbage의 생육 및 토양 특성에 대한 영향

A solid of Thermophilic Aerobic Oxidation(TAO) System was mixed with sawdust or a rice husks. After fermentation was finished, molding machine and a dryer were used, and pellet fertilizer was produced. The fertilizing experiment was carried out as five pieces by Bed soil, TAO solid(TAO-S), TAO pellet fertilizer(TAO-PF), Chemical fertilizer(NPK) and Control(no fertilizer). Growth rate of the Chinese cabbage by each treatment was examined. Analysis of microbe and soil characteristic before and after crop experiment were carried out. When the moisture contents of TAO-PF were $18\%$ and $25\%$, the occurrence rate of microbes for the storage time was increased to $80\%$ and $100\%$ respectively. However, in the $12\%$ of water content treatment was not increased microbes. The concentration of soil bacteria in TAO-PF and TAO-S for 15 day after treatment was $1.5\times10^7\~8.0\times10^7$ CFU/ml, and the concentration of bacteria for 50 day was increased to $6.3\times10^7$ and $8.3\times10^7$ CFU/ml. However, Fungus decreased. The concentration of Actinomycetes was increased in TAO solid, Bed soil and TAO-PF treatment. The TAO-S and TAO-PF treatment were normal to compare to the NPK treatment. In this experiment the height and width of the Chinese cabbage were 22.3 cm, 16.8 cm in Bed soil and 28.8 cm, 21.3 cm in TAO solid. The leaf number of TAO-S, TAO-PF and NPK treatment were similar to 39.8, 38.3, 40.3 sheet. As the result, the TAO-PF knew that use was possible with fertilizer.

고온호기성발효장치(TAO system)로 발효 처리한 양돈분뇨고형물을 톱밥과 왕겨로 혼합한 뒤 성형건조장치를 이용하여 펠렛 비료를 제조하였다. 제조된 펠렛 비료(TAO-PF)의 비료이용성을 검토하기 위하여 배추를 이용하여 포장시험을 실시하였으며, 수확 후 생육량 및 토양의 생물, 이화학적 변화를 분석하였다. 생육실험은 펠렛 비료(TAO-PF)를 포함하여 시판 상토(Bed soil), 발효고형물(TAO-S), 화학비료(NPK), 무비료(대조구)로 나누어 실험하였다. 제조된 발효펠렛(TAO-PF)의 상온저장성은 미생물의 증식경향으로 보아 수분 함량이 $18\%,\;25\%$ 처리구보다는 $12\%$ 처리구가 적절한 것으로 판단되었다. 배추를 이용한 각 처리구에서의 생육실험결과, 토양세균의 변화는 TAO-PF 처리구가 NPK, 무비료구 보다 처리기간중 증식하는 경향을 보였으며, 특히 방선균의 증가와 사상균의 감소현상은 NPK, 무비료 처리 에 비해 TAO-S, TAO-PF 처리구에서 현저하여 발효고형물의 토양시비가 토양생물상 변화에 매우 효과적인 것으로 나타났다. 본 생육실험을 통해 배추의 구고, 구폭, 엽수 등으로 보아 TAO-S, TAO-PF 처리구는 각각 화학비료, 시판상토 처리구를 대체 할 수 있을 것으로 판단된다.