Acknowledgement
이 논문은 부경대학교 자율창의학술연구비(2022년)에 의하여 연구되었습니다.
References
- Ali, S. S., Elsamahy, T., Koutra, E., Kornaros, M., El-Sheekh, M., Abdelkarim, E. A., Sun, J., 2021, Degradation of conventional plastic wastes in the environment: A review on current status of knowledge and future perspectives of disposal, Science of The Total Environment, 771, 144719.
- Angelidaki, I., Alves, M., Bolzonella, D., Borzacconi, L., Campos, J. L., Guwy, A. J., Kalyuzhnyi, S., Jenicek, P., van Lier, J. B., 2009, Defining the biomethane potential (BMP) of solid organic wastes and energy crops: a proposed protocol for batch assays, Water. Sci. Technol., 59(5), 927-34. https://doi.org/10.2166/wst.2009.040
- APHA-AWWA-WEF, 2005, Standard methods for the examination of water and wastewater, 21st ed., American Public Health Association, Washington, DC.
- Atiwesh, G., Mikhael, A., Parrish, C. C., Banoub, J., Le, T. A. T., 2021, Environmental impact of bioplastic use: A review, Heliyon, 7(9).
- Benn, N., Zitomer, D., 2018, Pretreatment and anaerobic co-digestion of selected PHB and PLA bioplastics, Frontiers in Environmental Science, 5, 93.
- Cazaudehore, G., Guyoneaud, R., Vasmara, C., Greuet, P., Gastaldi, E., Marchetti, R., Leonardi, F., Turon, R., Monlau, F., 2022, Impact of mechanical and thermo-chemical pretreatments to enhance anaerobic digestion of poly (lactic acid), Chemosphere, 297, 133986.
- Cazaudehore, G., Monlau, F., Gassie, C., Lallement, A., Guyoneaud, R., 2023, Active microbial communities during biodegradation of biodegradable plastics by mesophilic and thermophilic anaerobic digestion, Journal of Hazardous Materials, 443, 130208.
- Garcia-Depraect, O., Lebrero, R., Rodriguez-Vega, S., Bordel, S., Santos-Beneit, F., Martinez-Mendoza, L. J., Aragao-Borner, R., Borner, T., Munoz, R., 2022, Biodegradation of bioplastics under aerobic and anaerobic aqueous conditions: Kinetics, carbon fate and particle size effect, Bioresource Technology, 344, 126265.
- Gavala, H. N., Angelidaki, I., Ahring, B. K., 2003, Kinetics and modeling of anaerobic digestion process, Biomethanation I, 57-93. https://doi.org/10.1007/3-540-45839-5_3
- Le, T. N. T., Lee, J., 2022, Improving anaerobic digestion of polyhydroxybutyrate by Thermal- Alkaline pretreatment, J. Environ. Sci. Int., 31(7), 609-616. https://doi.org/10.5322/JESI.2022.31.7.609
- Markl, E., Grunbichler, H., Lackner, M., 2018, PHB-bio based and biodegradable replacement for PP: a review, Nov. Tech. Nutr. Food. Sci., 2(4), 206-209. https://doi.org/10.31031/NTNF.2018.02.000546
- McGlade, J., Samy Fahim, I., Green, D., Landrigan, P., Andrady, A., Costa, M., Geyer, R., Gomes, R., Hwai, A. T. S., Jambeck, J., Li, D., Rochman, C., Ryan, P., Thiel, M., Thompson, R., Townsend, K., Turra, A., 2021, From pollution to solution: a global assessment of marine litter and plastic pollution, United Nations Environment Programme.
- MoE (Ministry of Environment), 2022, Present Status of The National Waste Generation and Treatment, 2021, Korea.
- Mu, L., Zhang, L., Ma, J., Zhu, K., Chen, C., Li, A., 2021, Enhanced biomethanization of waste polylactic acid plastic by mild hydrothermal pretreatment: Taguchi orthogonal optimization and kinetics modeling, Waste Management, 126, 585-596. https://doi.org/10.1016/j.wasman.2021.03.044
- Ncube, L. K., Ude, A. U., Ogunmuyiwa, E. N., Zulkifli, R., Beas, I. N., 2021, An overview of plastic waste generation and management in food packaging industries, Recycling, 6(1), 12.
- PlasticsEurope, 2021, Plastics-the Facts 2021. An analysis of european plastics production, demand and waste data, Plast. Eur.
- Rahmani, A. M., Gahlot, P., Moustakas, K., Kazmi, A. A., Ojha, C. S. P., Tyagi, V. K., 2022, Pretreatment methods to enhance solubilization and anaerobic biodegradability of lignocellulosic biomass (wheat straw): Progress and challenges, Fuel, 319, 123726.
- Yasin, N. M., Akkermans, S., Van Impe, J. F. M., 2022, Enhancing the biodegradation of (bio) plastic through pretreatments: A critical review, Waste Management, 150, 1-12. https://doi.org/10.1016/j.wasman.2022.06.004