Waste Valorization of Water Hyacinth Using Biorefinery Approach: A Sustainable Route
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Publisher
Springer International Publishing
Link
https://link.springer.com/content/pdf/10.1007/978-3-030-65017-9_20
Reference93 articles.
1. Amulya K, Dahiya S, Venkata Mohan S (2016) Building a bio-based economy through waste remediation. Bioremediat Bioecon 2016:497–521
2. Nizami AS, Rehan M, Waqas M (2017) Waste biorefineries: enabling circular economies in developing countries. Bioresour Technol 241:1101–1117
3. Maina S, Kachrimanidou V, Koutinas A (2017) A roadmap towards a circular and sustainable bioeconomy through waste valorization. Curr Opin Green Sustain Chem 8:18–23
4. Thi NBD, Kumar G, Lin CY (2015) An overview of food waste management in developing countries: current status and future perspective. J Environ Manage 157:220–229
5. Moncada BJ, Aristizábal MV, Cardona ACA (2016) Design strategies for sustainable biorefineries. Biochem Eng J 116:122–134
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