Increase of treatment amount of thermophilic oxic process considering calorie/water (C/W) ratio
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Jeon, Kyoung-Ho
(농촌진흥청 국립축산과학원)
Choi, Dong-Yoon (농촌진흥청 국립축산과학원) Song, Jun-Ik (농촌진흥청 국립축산과학원) Park, Kyu-Hyun (농촌진흥청 국립축산과학원) Kwag, Jung-Hoon (농촌진흥청 국립축산과학원) Kim, Jae-Hwan (농촌진흥청 국립축산과학원) Kang, Hee-Sul (농촌진흥청 국립축산과학원) |
1 | 濱中俊輔, (2005), 廢棄物投入サイクルの短縮による高温好気処理の改善効果, 土木学会論文集, 783(34), 51-59. |
2 | 藤田賢二, (1993), コンポスト化技術. |
3 | 大島泰郎, (1978), 高熱性細菌, 東京大学出版學会 |
4 | 梁左璟, (1995), 高濃度有機排水の高温․好気処理におけるカロリー/水(C/W)比の重要性, 水環境学会, 18(7), 583-588. |
5 | 中崎清彦, 渡辺淳, 片岡稔, 久保田宏, (1993), コンポストにおける種菌の繰り返し使用の效果, 用水と廢水, 35(6), 32-37. |
6 | Lee, C. W., Tada, C and Sudo, R., (1998), Treatment characteristics of swine waste by thermophilic oxic process in long-term operation, Japan Jounal Process of Engineering Research, 35, 21-27. |
7 | Liu, B.G., Cai, H. and Mori, T., (1994), Complete decomposition of swine waste by thermophilic oxic process, Japan Jounal Process of Engineering Research., 31, 209-214. |
8 | 中崎淸彦, 片岡稔, 倉富英一, (1996), 高溫條件下でのコンポス ト化における初期の昇溫度と種菌の添加が有機物の分解に およぼす影響, 廢棄物學會誌, 7(5), pp.225-233. |
9 | 농촌진흥청, (2008), 가축분뇨 발생량 및 주요성분 재설정. |
10 | 日本下水道協会, (1997), 下水試驗方法. |
11 | 전 경호, (2007), 왕겨를 이용한 담체의 통기성 개선시 고온호기처 리법의 처리효율상승에 관한 평가, 한국폐기물학회, 24(8), 752-758. |
12 | Jeon, K. H., (2005), Development and Application of Simulation Model Considering Influence of Temperature and Water contents during Swine Waste Decomposition in Thermophilic Oxic Process, IWA. |
13 | Couillard.D., Griepy.S. and Tran. F.T., (1989), Slaughter house effluent treatment by thermophilic aerobic process, Wat. Res., 23(5), 573-579. DOI ScienceOn |
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