Knowledge Agora

Title	Good real world example of wood-based sustainable chemistry
ID_Doc	7375
Authors	Grinshpan, D; Savitskaya, T; Tsygankova, N; Makarevich, S; Kimlenka, I; Ivashkevich, O
Title	Good real world example of wood-based sustainable chemistry
Year	2017
Published
Abstract	One of the principles of Green chemistry is the usage of biomass instead of crude oil for the production of chemicals and chemical goods. Wood refers to the term biomass along with agricultural residues, energy crops, and the biogenic part of waste such as solid municipal waste, landfill, sewage gas and farming waste. Wood is mainly composed of cellulose, lignin and hemicelluloses. Cellulose is the main component of wood and lignin is the main by-product of cellulose extraction. Our green approach to both of these polymers resulted in creating a new process for hydrocellulose fiber production and a new sorbent for oil spills removal based on hydrolysis lignin. It is worth pointing out that our approach provides the use of two main wood components in the frame of "cradle to cradle" cycle (Fig. 1) that supports the circular economy concept for research and process development (Clark et al., 2016).
PDF

Similar Articles

ID	Score	Article
20116		Salem, KS; Naithani, V; Jameel, H; Lucia, L; Pal, L Lignocellulosic Fibers from Renewable Resources Using Green Chemistry for a Circular Economy(2021)Global Challenges, 5, 2
2805		Eqbalpour, M; Andooz, A; Kowsari, E; Ramakrishna, S; Cheshmeh, ZA; Chinnappan, A A comprehensive review on how ionic liquids enhance the pyrolysis of cellulose, lignin, and lignocellulose toward a circular economy(2023)Wiley Interdisciplinary Reviews-Energy And Environment, 12, 4
13852		Romaní, A; Del-Río, PG; Rubira, A; Pérez, MJ; Garrote, G Co-valorization of discarded wood pinchips and sludge from the pulp and paper industry for production of advanced biofuels(2024)
21761		Mujtaba, M; Fraceto, LF; Fazeli, M; Mukherjee, S; Savassa, SM; de Medeiros, GA; Pereira, ADS; Mancini, SD; Lipponen, J; Vilaplana, F Lignocellulosic biomass from agricultural waste to the circular economy: a review with focus on biofuels, biocomposites and bioplastics(2023)
20436		Dessie, W; Luo, XF; He, FL; Liao, YH; Qin, ZD Lignin valorization: A crucial step towards full utilization of biomass, zero waste and circular bioeconomy(2023)
3468		Zhou, YH; Stanchev, P; Katsou, E; Awad, S; Fan, MZ A circular economy use of recovered sludge cellulose in wood plastic composite production: Recycling and eco-efficiency assessment(2019)
9246		Jasiukaityte-Grojzdek, E; Vicente, FA; Grilc, M; Likozar, B Ambient-Pressured Acid-Catalysed Ethylene Glycol Organosolv Process: Liquefaction Structure-Activity Relationships from Model Cellulose-Lignin Mixtures to Lignocellulosic Wood Biomass(2021)Polymers, 13.0, 12
9105		Guragain, YN; Vadlani, PV Renewable Biomass Utilization: A Way Forward to Establish Sustainable Chemical and Processing Industries(2021)Clean Technologies, 3.0, 1
27553		Elsayed, M; Madadi, M; Song, GJ; Zhou, ZH; Wang, HJ; Wang, J; Zhang, JH; Aghbashlo, M; Tabatabaei, M Upcycling furfural residues into bioethanol and pyrolytic oil through a cascading biorefinery approach(2024)
25207		Abouelela, AR; Hallett, JP Hazardous Creosote Wood Valorization via Fractionation and Enzymatic Saccharification Coupled with Simultaneous Extraction of the Embedded Polycyclic Aromatic Hydrocarbons Using Protic Ionic Liquid Media(2021)Acs Sustainable Chemistry & Engineering, 9, 2