서지정보

목차

1. 서 론
2. 연구방법
2.1 연구대상 및 내용
2.2 보조연료 첨가제의 제조
2.3 분석방법
3. 결 과
3.1 건조하수슬러지 성상
3.2 악취물질 흡착제로 활용 가능한 공정 부산물 조사
3.3 공정 부산물의 악취 흡착량 평가
3.4 공정 부산물의 직접 관능평가
3.5 선정된 악취저감 시료의 악취저감 효율 향상을 위한전이금속 담지 실험
3.6 시료 혼합 비율에 따른 특성 및 발열량 변화
3.7 발열량을 고려한 투입비율 결정과 복합악취 배수 평가
4. 결 론
References

영어 초록

The purpose of this study is to produce the auxiliary fuel additives that will improve the heat value and reduce the odor of dried sewage sludge, an auxiliary fuel for power plants using process by-products. Through an odor analysis prior to the production of auxiliary fuel additives, it was confirmed that the main odor materials are Methylmercaptan, Acetaldehyde and Trimethylamine. Based on this, we measured the heating value on various processes by-products such as by-products of thermal power generation and by-products of refinery. In addition, the adsorption performance in the major odor material was evaluated. However, for Trimethylamine, it is very difficult to secure the reproducibility of the concentration of the standard materials as the standard material is liquid. Therefore, it was used Ammonia, which has basic property, to replace Trimethyamine. In the evaluation of various process by-products, the highest heating value in heavy oil fly ash was 5,575 kcal/kg, while in the adsorption performance evaluation, FCC was shown as having the best performance in adsorption, as it could adsorb 100% of Methylmercaptan, 47% of Acetaldehyde and 76% of Ammonia. We conducted an adsorption experiment after supporting a transition metal on the FCC in order to improve the adsorption capacity. As a result, it was confirmed the best efficiency when supporting the copper nitrate 0.5% on the FCC. Based on this result, the experiment was conducted to determine the optimal mixing ratio with a high heating value and odor reducing function using Heavy oil fly ash and FCC. The optimal mixing ratio was 90% of Heavy oil fly ash and 10% of FCC. Furthermore, it was found that the most economical performance and highest odor reducing efficiency was achieved when the mixing ratio was 90% of dried sewage sludge and 10% of auxiliary fuel additives.

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