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논문 기본 정보
- 자료유형
- 학술저널
- 저자정보
- 발행연도
- 2023.12
- 수록면
- 223 - 240 (18page)
이용수
초록· 키워드
오류제보하기
The occurrence of cellulose in wastewater is mostly due to the usage of lavatory tissue, anticipated to be about 30% of the produced domestic sewage. This makes the recovery of cellulosic substances from wastewater important as a resource valorization strategy. The cellulose recovery is highly recommended to be included in wastewater treatment plant (WWTPs), associated with the favorable environmental impression, flexible routes of application, and mature value chain. In the present review, a comprehensive map was drawn for the initial and transformational applications of cellulose in WWTPs. Typical microbial cultures found in wastewater, facilitating cellulose degradation in both aerobic and anaerobic cases were thoroughly reviewed. An outlook of commercialized technologies purposed for cellulose recovery has been provided, with prominence on rotating bed filter. The benefits of cellulose recovery from wastewater via various routes were also highlighted.
목차
ABSTRACT
1. Introduction
2. Analytical Methods for Quantification of Cellulose
3. Cellulose Degradation
4. Cellulose Recovery Technologies
5. Valorization of Recovered Cellulose
6. Applications of the Recovered and Valorized Cellulose
7. Techno-Economic Analysis (TEA)
8. Future Prospects
9. Conclusions
References
참고문헌 (73)
참고문헌 신청
Jin M, Shi J, Zhu W, Yao H, Wang D-A. Polysaccharide-based biomaterials in tissue engineering: a review. Tissue Eng. 2021;27:604-626. https://doi.org/10.1089/ten.TEB.2020.0208.
Zhu L, Zhong Z. Effects of cellulose, hemicellulose and lignin on biomass pyrolysis kinetics. Korean J. Chem. Eng. 2020;37:1660-1668. https://doi.org/10.1007/s11814-020-0553-y.
Kim S H, Lee C M, Kafle K. Characterization of crystalline cellulose in biomass: Basic principles, applications, and limitations of XRD, NMR, IR, Raman, and SFG. Korean J. Chem. Eng. 2013;30:2127-2141. https://doi.org/10.1007/s11814-013-0162-0.
Ha J-M, Hwang K-R, Kim Y-M, Jae J, Kim K H, Lee H W, Kim J-Y, Park Y-K. Recent progress in the thermal and catalytic conversion of lignin. Renewable Sustainable Energy Rev. 2019;111:422-441. https://doi.org/10.1016/j.rser.2019.05.034.
Sirous-Rezaei P, Park Y-K. Catalytic hydropyrolysis of lignin: Suppression of coke formation in mild hydrodeoxygenation of lignin-derived phenolics. Chem. Eng. J. 2020;386:121348. https://doi.org/10.1016/j.cej.2019.03.224.
Zhu L, Zhong Z. Effects of cellulose, hemicellulose and lignin on biomass pyrolysis kinetics. Korean J. Chem. Eng. 2020;37:1660-1668. https://doi.org/10.1007/s11814-020-0553-y.
Kim S H, Lee C M, Kafle K. Characterization of crystalline cellulose in biomass: Basic principles, applications, and limitations of XRD, NMR, IR, Raman, and SFG. Korean J. Chem. Eng. 2013;30:2127-2141. https://doi.org/10.1007/s11814-013-0162-0.
Ha J-M, Hwang K-R, Kim Y-M, Jae J, Kim K H, Lee H W, Kim J-Y, Park Y-K. Recent progress in the thermal and catalytic conversion of lignin. Renewable Sustainable Energy Rev. 2019;111:422-441. https://doi.org/10.1016/j.rser.2019.05.034.
Sirous-Rezaei P, Park Y-K. Catalytic hydropyrolysis of lignin: Suppression of coke formation in mild hydrodeoxygenation of lignin-derived phenolics. Chem. Eng. J. 2020;386:121348. https://doi.org/10.1016/j.cej.2019.03.224.
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UCI(KEPA) : I410-ECN-0101-2023-539-001404691